KR20120084003A - Easy-assemblable heating panel - Google Patents

Abstract

PURPOSE: A combinable heating panel is provided to be easily installed and carried out, and to reduce damages when the panel is moved. CONSTITUTION: A combinable heating panel comprises a heating pipe(10), an urethane foam(8), a supply pipe(19), a return pipe(20), a supply pipe feeder(21), an inlet(2) of a return part, and the return part(24) of the return pipe. The heating pipe is laid on the urethane foam. The supply and return pipes are formed in one side of the urethane foam. The inlet of the return part is opened in order to be connected to the return part of the return pipe. On the side part symmetrical to the inlet of a steel case feeder, the inlet(2) of the return part is opened.

Description

Combined heating panel {easy-assemblable heating panel}

The present invention relates to a heating panel structure and assembly, and more particularly, it is possible to assemble by connecting the heating panels piped in parallel in each of the panels by using a connection member to reduce the cost and on-site due to the speed of work and light weight of the members. The present invention relates to a heating panel structure and assembly that can be easily installed and dismantled so that they can be easily installed in temporary residences and mobile barracks.

In general, the heating is a central type for distributing the fruit produced by the boiler, usually in the room to each room, and a separate type for placing a hot air fan, a radiator, and the like in each room. In addition, in the case of the heating panel, the fruit from the boiler generally obtains the heating effect as a heat source obtained by passing the heating area through the outer line hot water pipe.

In recent years, such heating methods have become commonplace in boilers and electric heating. In case of central heating, the installation of each room should insulate the pipe and install the insulating material and foam concrete for insulation treatment on the existing concrete slab plate, and then finish the work by cement mortar. It takes about 10 ~ 15 days, and there is difficulty in construction during winter construction. In addition, there are management problems because many processes require manpower. Construction in accordance with the above process for heating the prefabricated house or temporary barracks, mobile resting facilities, etc. has the disadvantage of unnecessary resources and effort, and requires a lot of air for construction. As another example, the modular ondol panel can not be recycled repeatedly when dismantled for moving, so there was a problem of economic loss when moving temporary barracks or prefabricated houses.

The present invention is to produce a supply pipe and a return pipe of the fitting and tailoring method by devising this point and the heating panel by using a parallel method, the hot water is evenly distributed evenly on the floor panel to obtain a fast heating effect. This heating panel not only increases the efficiency of heating, but also provides a warning and lightweight steel sheet that is free from damage during movement, easy to install and withdraw, and cost-effective and easy to disassemble and assemble when transported to the work site. The purpose is to provide.

In order to realize this, the heating panel according to the present invention is characterized in that a plurality of installation grooves are formed in a straight line in the longitudinal direction in order to insulate the hot water pipe on the upper surface; Installation Foil paper installed on the hot water pipe for horizontal transmission of temperature on the hot water pipe is finished on the foil paper by finishing with a light steel plate, and the panel can be used continuously connected according to the area to be constructed. The hot water supply pipe is connected to the end of the longitudinal direction by a connecting pipe, and the hot water passing through the combined panel according to the required area is continuously connected to the return pipe and the return pipe for circulating the boiler, To protect the temperature of the return pipe for returning Material and the casing is a water exchange pipe insulation to the insulation on the same level as the iron material of the panel is characterized in the structure of the urethane heating panel with a steel shell, characterized by water exchange tube is protected from the floor loads.

The following effects can be obtained by the heating panel structure and its assembly constituted by the present invention. Finishing material of panel sheet has the effect of reducing the construction period following the mortar construction period by the wet method by using the pre-manufactured products using steel sheet, and economical effect that can be reused because it is easy to assemble and dismantle. In addition, there is a great effect that can be installed at any time without regard to the climate regardless of the climate during construction.

1 is an individual assembly view of the present invention.
Figure 2 is a cross-sectional view taken along line A-A 'for the heating panel of Figure 3 of the present invention.
Figure 3 is a perspective view of the completed combined heating panel of the present invention.
Figure 4 is an exploded view for explaining the combined heating panel of the present invention.
5 is a partially enlarged view for explaining the supply pipe and the return pipe of the heating panel of the present invention.
6 is a partially enlarged explanatory view of part B in FIG. 14 of the present invention;
7 is an enlarged explanatory diagram of part C in FIG. 3 of the present invention;
Figure 8 is an enlarged embodiment of the connector and the clip ring of the present invention.
9 is an F-F 'line connection in Figure 14 of the present invention.
10 is an enlarged explanatory view of part D of FIG. 3 of the present invention;
11 is an explanatory diagram of a clip ring connected to a hot water pipe and a supply plug, and a coupling pipe connected to a supply pipe supply part connected to a supply pipe supply part;
12 is an enlarged view of a supply pipe.
13 is an enlarged view of a circulation tube.
14 is a circulation diagram showing the whole of the assembled heating panel.

      Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. Figure 1 is an individual assembly diagram of the present invention bent the edge of the rectangular steel panel bent edges in the longitudinal direction so that the hot water pipe 10 is embedded therein, and the hot water buried therein The silver foil paper 16 placed on the pipe 10 and the hot water pipe 10 is bent over the edge of the slope by the steel case upper plate 7 on the foil paper 16 and the bent edge surface of the steel case lower plate 6. One side of the configured urethane foam (8) is configured to be coupled to the supply pipe 19 and the return pipe 20 made of a rectangular hollow barrel made of plastic injection is located on the opposite side as the assembly of the supply pipe (19) In the lower part of the steel case 6, the supply pipe 19 is provided at the place of the supply pipe inlet 1 so that the supply pipe 21 is coupled side by side at the time of assembly. ) One return pipe return part 24 is open to be connected, and the opposite edge portion symmetrical with the steel case supply part inlet part 1 is opened with a return part inlet part 2 which can be used when connecting with the opposite panel and a return part inlet part. It is shown that the inlet which can be combined with the supply pipe supply part 21 of the panel which is assembled side by side also from the open side (2) is shown.

Figure 2 is a cross-sectional view of the heating panel A-A 'line sectional view of Figure 3 shown in the cross-sectional view between the steel case lower plate 6 and the assembled steel case upper plate (7), the urethane insulation on the steel case lower plate (6) Foam 8 is located, the hot water pipe groove (4) of the heat insulating material urethane foam (8) is a hot water pipe 10 is disposed and the foil paper 16 is located on the upper surface of the hot water pipe 10, the foil paper (16) It serves to distribute the heat generated in the hot water pipe (10). The combined heating panel 100 of the present invention is constructed by combining the steel foil upper plate 7 thereon.

Figure 3 is a perspective view of the completed combined heating panel 100 of the present invention.

4 is an exploded view for explaining the combined heating panel 100 of the present invention to explain how the various heating panels are assembled.

5 is a partially enlarged view for explaining the supply pipe 19 and the return pipe 20 of the heating panel of the present invention.

6 is a partially enlarged explanatory view of part B in FIG. 14 of the present invention.

FIG. 7 is an enlarged explanatory view of part C in FIG. 3 of the present invention, FIG. 8 is an enlarged view showing the connecting pipe 25 and the clip ring 27, and FIG. 9 is shown in FIG. 14 of the present invention. An enlarged view of the F-F 'line connection.

FIG. 10 is an enlarged explanatory view of part D of FIG. 3, and FIG. 11 is a connection pipe (2) to an opposite side supply pipe supply part 21 connected to the hot water pipe 10 and the supply plug 11 and connected to the supply pipe supply part 21. 25 is an explanatory view of the clip ring 27 that is coupled thereon after fitting.

12 is an enlarged view of the supply pipe 19, and FIG. 13 is an enlarged view of the return pipe 20. As shown in FIG. 14 is a circulation diagram showing the whole of the assembled heating panel.

       Referring to the drawings in more detail in detail with reference to the present invention Figure 1 is a separate heating panel using the steel panel of the present invention completed the interior of the foam urethane foam (8) of the edge of the rectangular steel panel is completed Semi-circular hot water so that the hot water pipe 10 can be buried on the upper surface of the foamed urethane foam 8 located in the steel heating panel and placed at a constant interval in the longitudinal direction of the rectangle. The urethane foam 8 having the pipe grooves 4 formed in a straight line was inserted into the lower portion of the steel case 6, and the urethane foam 8 was inserted between the two and four sides of the lower portion of the steel case 6 shown in FIG. On one side of the foam (8) there is a supply pipe 19 and the return pipe 20, the supply pipe 19 is a plurality of supply plugs on the side length of the rectangular side of the hollow tube formed of a rectangular synthetic resin as shown in FIG. 11) In addition, the supply pipe supply portion 21 formed on one side of the supply pipe 19 is made in the form of a circular round pipe, the plurality of supply plugs 11 are seated toward the hot water pipe groove 4 of the urethane foam (8) And, on the other side of the steel case lower plate 6 of the urethane foam 8, the supply pipe 19 is also located in the reverse direction. First, the return pipe 20 having a return pipe return part 24 is located in the longitudinal end surface of the rectangular hollow cylinder side by side with the supply pipe 19 installed, the return pipe return part 24 is a supply pipe supply part 21. A circular nozzle shaped like this one is provided. Supply pipe (19) installed side by side of the return pipe 20 is installed on the steel case lower plate (6) on one side of the rectangular longitudinal direction. Polyurethane foam (8) located next to the supply pipe (19). First, the supply pipe 19 and the supply plug 11 installed across the foamed urethane foam 8 face each other and constitute the inside of the steel case lower plate 6 as the supply pipe 19 installed side by side. The supply pipe supply plug 11 which is symmetrically opposed to the) is fitted with the hot water pipe 10 so that the hot water supplied from the supply pipe supply 21 is transferred to the opposite supply pipe 19 through the plurality of hot water pipes 10. The hot water delivered to the supply pipe supply 21 is continuously transferred to the panel that is connected and installed. The hot water pipe 10 installed on the foamed polyurethane foam 8 and the supply pipe 19 and the return pipe 20 cover the silver foil 16 so that the temperature generated by the hot water pipe 10 is different from that of the hot water pipe 10. It distributes evenly over the area. On the foil 16, the steel case lower plate 6 can be covered. The edge of the rectangular iron plate covers the steel case lower plate 6, and the side surface of the steel case lower plate 6 covers the side surface of the lower plate from the top. The corners can be accommodated and configured to be firmly coupled by inserting a piece screw nail 9 into the side of the steel case upper plate 7 and the steel case lower plate 6 which are overlapped.

The individual assembly diagram of the assembled panel consisting of the foamed polyurethane foam for heating (8) configured as described above has an external shape as shown in Figure 3 and the supply pipe supply part 21 on one side of the assembled heating panel as shown in Figure 7 Supply part inlet (1) and return part inlet (2) that can be connected to the side panel that is coupled to the return pipe and the return part 24 is adjacent, the connection pipe 25 is used as shown in FIG. The supply pipe supply portion 21 and the return pipe return portion 24 are fitted to both sides of the connecting pipe 25 to fill the clip ring 27 to secure the fitted state. The connecting pipe 25 is made of soft synthetic resin or rubber product, and the circular connecting pipe 25 has a connecting pipe protruding ring 26 so that the connecting pipe 25 has an inlet (2) and a supply inlet (1). After inserting the connecting pipe 25 to prevent the hot water leaks by the pressure ring 26 is configured. The connecting pipe 25 protruding ring 26 not only secures the inlet part 2 or the supply part inlet 1 fitted to the connecting part 25, but also secures it by fitting a compressive clip ring 27. The clip ring 27 serves to evenly distribute the compressive force when compressing the connector (25). The connection part of the round clip ring 27 has a space | interval 14, and it is made so that it may compress as much as the space | interval 14 in some cases. In addition, as shown in FIG. 10, the open iron case upper plate 7 of the return part inlet 2 and the supply part inlet 1 has a top cap 5 to connect the heating panel and the heating panel as described above. Connecting pipe (25) between the heating panel and the supply pipe inlet (1) in the heating panel using the pipe (25) using the clip ring (27), and then the stopper made of iron plate in the open area on the upper plate (5) The cover 5 is closed with a piece screw 9 through a stopper piece hole 13 and a top plate hole 12 which are drilled next to the top plate return portion inlet 2 of the top cover 5 and the steel case 7. As shown in FIG. 9, one side of the heating panel is described, and a cross section of the return pipe 20 is shown at one edge of the heating panel, and the supply pipe 19 is next to the return pipe 20, and the supply plug 11 of the supply pipe The hot water pipe 10 is fitted. The clip ring 27 is positioned outside the fitted hot water pipe 10 so that the hot water pipe 10 is firmly bound to the supply plug 11. In the hot water pipe 10, the supplied hot water flows, and under the hot water pipe 10, there is a foamed polyurethane foam 8, and above the hot water pipe 10, a foil paper 16 for dispersing heating heat is located. 16) The top of the steel case (7) is shown to be combined.

Referring to FIG. 4, the circulation state diagram of the panel assembly shown in FIG. 14 is described in detail. The hot water supplied from the external boiler (not shown) is drawn into the supply pipe supply part 21 of the heating panel 15 that is first introduced. The heating heat is transmitted to the front surface of the panel through the hot water pipe 10 fitted to the supply plug 11 formed on the side of the supply pipe 19. On the other side of the hot water pipe 10, there is a supply plug 11 of the supply pipe, and the hot water pipe 10 is inserted into the plug. The hot water supplied through the hot water pipe 10 is supplied through the supply pipe supply part 21. Next, the water is delivered to the heating panel 17, and the hot water received through the supply pipe supply unit 21 on one side of the heating panel 17 is supplied to the supply pipe supply unit 21 in the same manner as the heating panel 15. The filled hot water of is transmitted to the hot water pipe (10) through the supply plug 11 and to the supply pipe (19) opposite the same panel through the hot water pipe (10). When the first heating panel 15 and the second heating panel 17 are connected to each other, the supply pipe supply part 21 of the first heating panel 15 and the supply pipe supply part 21 of the second heating panel 17 are connected. The pipe 25 is inserted and connected, and the clip ring 27 is fitted to both sides of the connection pipe 25 so as to secure the fitted state of the connection pipe 25. The second heating panel 17 and the third heating panel 22 are provided on the opposite side of the first heating panel 15 and the second heating panel 17. The supply pipe supply part 21 of the heating panel 22 is connected by using the connecting pipe 25 and the clip ring 27, the heating panel 22 and the heating panel 23, 23, also the heating panel 2 The supply pipe supply part of the heating panel 22 and the heating panel 24 using the connecting pipe 25 and the clip ring 27 on the opposite side to the connection part of the heating panel 22 and the 17 heating panel 22. 21 will be connected. The hot water pipe 10 connected to the supply pipe 11 of the heating pipe 24 of the 4th heating panel 24 is connected to the supply pipe 11 of the supply pipe 11 on the opposite side, so that the heating panel for return is made. As in the embodiment of the heating panel 15, heating panel 17, heating panel 15, and heating panel 22, the area can be added continuously, and heating is performed 4 times at the time when the installation of the panel for the heating area is completed. Like the panel 23, the hot water pipe 10 is connected between the supply pipe 19 and the supply pipe 19 to complete the heating panel, and then located on the opposite side of the supply pipe supply part 21 on one side of the heating panel 23. The supply pipe supply part 21 is fitted with a connection pipe 25 is inserted into the return portion projecting to the return pipe 20, the supply pipe supply part 21 of the heating panel 23 is connected to one side of the connection pipe is heated hot water The return pipe 20 is also located on each heating panel connected As many as the number of the room panel, the return pipe 20 is connected by the above method using the connection pipe 25, and the hot water returned from the heating area is circulated back to the external boiler (not shown). It is shown by the degree of circulation during assembly.

Prefabricated heating panel using the steel constructed as described above has the advantage that can be reused after installation in a simple bed or a mobile barracks, a sample house model house, depending on the location used.

1: supply inlet 2: return inlet
3: return part inlet 4: hot water pipe groove
5: stopper 6: steel case bottom plate
7: steel case top 8: urethane foam
9: piece screw nail 10: hot water pipe
11: Supply pipe Supply plug 12: Top piece hole
13: plug piece hole 14: spacing
15: heating panel 1 16: silver foil
17: No. 2 heating panel 18: Coupling piece hole
19: supply pipe 20: return pipe
21: supply pipe supply part 22: heating panel 3
23: heating panel 4 24: return pipe return
25: connector 26: protrusion ring
27: Clipping 100: Combined heating panel

Claims (4)

The bent edges of the rectangular steel panel are bent in the longitudinal direction so that the hot water pipes 10 may be embedded therein, and the hot water pipes 10 and hot water pipes 10 embedded therein. The upper foil sheet 16 is formed of a steel case upper plate 7 on the foil sheet 16 so that the edge of the slope can be bent downward to be combined with the bent edge surface of the lower case 6 of the steel case, and the urethane foam formed thereon. One side of (8) is a supply tube 19 and the return pipe 20 made of a hollow hollow barrel made of plastic injection, and the supply pipe 19 is located on the opposite side of the steel case lower plate (6) supply pipe (19) In place of the supply pipe supply unit 21 is prepared by opening the supply unit inlet (1) to be coupled side by side during assembly, the return unit inlet (2) located next to the supply unit inlet (1) and the return pipe return unit 24 Be connected On the opposite edge, which is symmetrical to the steel case supply inlet (1), the return part inlet (2), which can be used for connection with the opposite panel, is opened, and from the side where the return part inlet (2) is open. Combined heating panel 100, characterized in that the end side can also be combined with the supply pipe supply 21 of the panel to be assembled by combining side by side.
12. The supply pipe 19 according to claim 1 is formed with a plurality of supply plugs 11 at the lengthwise side end of the rectangular hollow tube formed of a rectangular synthetic resin as shown in Figure 12, configured on one side of the supply pipe 19 Supply pipe supply unit 21 is made in the form of a circular round pipe type combined heating panel 100, characterized in that formed of a plurality of supply plugs (11).
The method according to claim 1, wherein the supply pipe supply portion 21 and the return pipe return portion 24 are fitted on both sides of the connection pipe 25 using the connection pipe 25 so as to secure the clamping state. Combined heating panel 100, characterized in that the filling.
The hot water supplied from the external boiler (not shown) is introduced into the supply pipe supply portion 21 of the first heating panel 15 to the supply plug 11 formed on the side of the supply pipe 19. Fitted hot water pipe (10). On the other side of the hot water pipe 10, there is a supply plug 11 of the supply pipe, and the hot water pipe 10 is inserted into the plug. The hot water supplied through the hot water pipe 10 is supplied through the supply pipe supply part 21. Next, the water is delivered to the heating panel 17, and the hot water received through the supply pipe supply unit 21 on one side of the heating panel 17 is supplied to the supply pipe supply unit 21 in the same manner as the heating panel 15. The filled hot water of is transmitted to the hot water pipe 10 through the supply plug 11 and to the supply pipe 19 on the opposite side of the same panel through the hot water pipe 10, the first heating panel 15 and 2 above. When connecting to the heating panel 17, the supply pipe supply unit 21 of the first heating panel 15 and the supply pipe supply unit 21 of the heating panel 17 is inserted by connecting the connecting pipe 25, the fitted connection Clips (27) are fitted on both sides of the pipe (25), and heating panel (17) and heating panel (22) are heating panel (15) and heating panel (2). On the opposite side of the heating panel 17, the supply pipe supply part 21 of the second heating panel 17 and the supply pipe supply part 21 of the third heating panel 22 are connected to each other using the connecting pipe 25 and the clip ring 27. The heating panel 22 and the 4th heating panel 23 are also connected to the connecting part 25 and the clip ring on the opposite side to the connection part of the heating panel 17 and the heating panel 22, respectively. Using the (27) to connect the supply pipe supply portion 21 of the third heating panel 22 and the fourth heating panel 24. The hot water pipe 10 connected to the supply pipe supply plug 11 of the fourth heating panel 24 is connected to the supply pipe supply plug 11 on the opposite side, so that when the heating area is large, the heating panel 15 and the second heating panel 15 As in the embodiment of the heating panel 17 and the heating panel 22, the area can be added continuously, and the supply pipe (such as the heating panel 23) can be placed at the time when the installation of the panel for the heating area is completed. After connecting the hot water pipe 10 between 19 and the supply pipe 19 to complete the heating panel, the supply pipe supply part 21 on the opposite side of the supply pipe supply part 21 on one side of the number 4 heating panel 23 has a return pipe. The connection pipe 25 is inserted into the return portion protruding from the 20, and one side of the connection pipe is connected to the supply pipe supply portion 21 of the heating panel 23, and the return pipe 20 also has its respective heating panel. The number of heating pipes connected to the return pipe 20 is connected to the above method using the connection pipe 25. Combined heating panel 100, characterized in that the hot water returned from the heating area is circulated back to the external boiler (not shown).

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