KR200432475Y1 - Side panel for heating room - Google Patents

Abstract

The present invention relates to an edge panel for heating, in which a rectangular panel (1) having a straight concave groove (2) is arranged in a width of a room, wherein a heat conductive plate made of a thin metal plate on the upper side of the heat insulating material layer (3) 4) laminating and forming a heat storage material layer (5) formed of an inorganic coagulant such as gypsum powder thereon, and forming a U-shaped recess groove at a depth from the heat storage material layer (5) to the middle part of the heat insulating material layer (3). 2a) is laminated to the edge panel 1a formed to contact one side, and the heat insulating material layer 3, the heat conducting plate 4, and the heat storage material layer 5 are laminated in the same manner as above, and the heat insulating material layer ( The edge panel 1b is formed by forming a U-shaped concave groove 2b in contact with one side and a straight concave groove 2c in contact with both sides at a depth reaching the middle of 3). A long heat radiating tube is inserted into the recessed grooves 2, 2a, 2b and 2c of the panels 1, 1a and 1b. Install and heat up.

Panel, insulation layer, heat conduction plate, heat storage layer, recess groove.

Description

Edge panel for heating {SIDE PANEL FOR HEATING ROOM}

1 is a plan view showing the construction of the edge panel for heating of the present invention

Figure 2 is a cross-sectional view of the main part of the present invention

Figure 3 is a perspective view of the edge panel of part A of Figure 1

4 is a perspective view of the edge panel of part B of FIG.

[Code Description of Important Sections in Drawing]

1: panel 1a, 1b: edge panel, 2, 2a, 2b, 2c, recessed groove

3: heat insulation layer 4: heat conduction plate 5: heat storage layer p: heat dissipation pipe

The present invention relates to a heating edge panel.

Conventionally, in order to install a heat radiating tube for indoor heating, a panel with a recessed groove formed by zigzag is laid on the floor and a heating radiating tube is inserted into the recessed groove formed in the panel. There was a problem in that it is inconvenient to install the heat pipe curved at the edge portion.

The present invention is to solve this problem of the prior art, when the long heat radiating heat pipes are arranged at regular intervals in a zigzag space on the floor of the room, the edge portion is formed in a rectangular rectangle of a certain width and the edge of one edge The U-shaped concave groove was formed in the panel, and the U-shaped concave groove and the straight concave groove were formed in the other edge panel so that the construction could be performed at the edge of the room.

The panel of the present invention is arranged in a plane only at the edge of the room to be heated to match the recess of the other panel of the intermediate surface, and then cut off the excess. At this time, the zigzag indentation groove is formed by being connected to the straight indentation groove of another panel disposed in the middle surface of the room. Therefore, the long heat pipe is easily buried in a zigzag along the indentation groove and the finishing material is installed on the upper surface.

In the panel of the present invention, the heat radiated from the heat dissipation tube is transferred to the upper surface through the heat conduction plate, part of the heat is accumulated in the heat storage material layer, and part of the heat is radiated upward. Even if there is a change in the heat dissipation amount in units of time by the heat storage layer, the room can maintain heating at a substantially uniform temperature. In addition, the heat dissipation to the bottom is prevented by the heat insulating material layer, so the utilization rate of heat emitted from the heat radiating tube is higher.

In addition, since the heat dissipation tube can be easily constructed by the panel of the present invention at the edge of the room, it is designed to be heated more efficiently by heating more efficiently.

As shown in Fig. 1, a rectangular panel 1 having a straight concave groove 2 formed on the middle surface of the room is arranged in the width of the room. The panel of part A of Fig. 1 is shown in Figs. On the upper side of the heat insulation layer 3 of the rectangular edge panel 1a, as shown, a thermal conductive plate 4 made of aluminum, copper, or other metal lamination is laminated, and stone powder is formed on the inorganic coagulant such as gypsum. The heat storage material layer (5) was laminated and formed so that the U-shaped recessed groove (2a) was in contact with one side of the panel to a depth from the heat storage material layer (5) to the middle portion of the heat insulation material layer (3).

The edge panel 1b of part B of FIG. 1 stacks the heat insulating material layer 3, the heat conductive plate 4, and the heat storage material layer 5 in the same manner as above, and the middle of the heat insulation material layer 3 in the heat storage material layer 5. The U-shaped concave groove 2b is formed to be in contact with one side and the straight concave groove 2c is in contact with both sides with a depth reaching to the side, and the edge panel 1a and 1b are formed as another panel ( It can be used in combination with 1).

In one embodiment of the present invention, the thickness of the heat insulating material layer 3 is 20 mm, the thickness of the heat conductive plate 4 is 0.3 mm, and the thickness of the heat storage material layer 5 is about 10 mm. Therefore, the width of the concave groove (2a) (2b) (2c) is formed to the depth of the concave groove is 20mm deep so that the construction can be inserted by inserting a heat pipe (p) of at least 16-18mm in diameter.

 The edge panels 1a and 1b of the present invention are planarly arranged on both the left and right sides of the other panel 1, respectively, and the edge panels 1a and 1b at both ends of the straight recessed grooves 2 formed in the panel 1. It is connected to the concave groove (2a) (2b) of the concave groove (2c) to be connected in a straight line. It is inserted and embedded in one end of the long heat radiating pipe p in a long length in the recessed grooves 2, 2a, 2b and 2c of the panels 1, 1a and 1b, which are not shown on the panel. Finish by finishing the unfinished finishing materials.

By using the edge panels 1a and 1b of the present invention, the construction of the heat dissipation pipe p can be performed neatly and simply. In addition, the number of rows of the straight horizontal concave grooves 2 increases or decreases depending on the width or width of the room, and the margin of the edge panels 1a and 1b may be cut according to the width or width of the room. (2a) (2b) and (2c) are applied as it is, the heating construction can be very simple and efficient and neat construction.

The panel of the present invention is easy to be heated at the edge of the room, and the heat emitted from the heat dissipation tube is distributed in all directions through the heat conduction plate 4, and at the same time, some of the heat dissipating upward is accumulated in the heat storage material layer 5, Even if the heat dissipation temperature changes over time, the heating can be maintained almost uniformly.

  Since the U-shaped indentation groove and the straight indentation groove which are connected to the straight indentation groove formed in the panel of the other middle surface are formed in the edge panel of the present invention, the length of each indentation groove of the panel and the edge panel disposed on the indoor floor is It can be installed simply and efficiently from one end of long heat radiating tube in order.

In addition, by using the edge panel, it is possible to install the heat pipe neatly and conveniently.

In addition, depending on the area of the room to be heated, the panel and the edge panel can be used to heat the appropriate size.

In addition, the heat emitted from the heat dissipation tube is distributed in all directions through the heat conduction plate, and at the same time, the heat is accumulated in the heat storage material layer so that the heat can be maintained almost uniformly even when the heat dissipation temperature in the heat dissipation tube changes over time. There is a variety of effects that can be effectively radiated by heat radiating to the top.

Claims (1)

In the case where the rectangular panel 1 having the linear recessed grooves 2 is arranged in the width of the room, the heat conducting plate 4 made of metal lamination is laminated on the upper side of the heat insulating material layer 3, and the heat storage is formed thereon. An edge panel 1a formed by stacking the layer 5 and contacting the U-shaped recess 2a at one side with a depth from the heat storage layer 5 to the middle portion of the heat insulation layer 3; In the same manner as above, the heat insulating material layer 3, the heat conductive plate 4, and the heat storage material layer 5 are laminated to each other, and the U-shaped recessed groove 2b has a depth from the heat storage material layer 5 to the middle portion of the heat insulating material layer 3. The edge panel for heating characterized in that the edge panel (1b) formed in a group formed in contact with one side and the straight concave groove (2c) on both sides of the rear side.

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