JP2010511851A - Side panel for indoor heating and construction process - Google Patents

Abstract

The present invention relates to an edge panel block for indoor heating comprising the following. An edge panel block (1a) including a heat transfer plate (4) laid on a heat insulating layer (3) having a support portion (3a) therein, and a heat storage layer laid on the heat transfer plate (4) (5) and
In addition to the thickness of the heat storage layer (5), the heat insulation layer is a U-shaped groove (2a), and an end of the U-shaped groove (2a) is aligned with the groove of the adjacent panel block. The layer (3) includes a U-shaped groove (2a) formed to a depth that reaches the middle of the thickness, a heat insulating layer (3), a heat transfer plate (4), and a heat storage layer (5). An edge panel block (1b) and a U-shaped groove (2b) and a straight groove (2c) behind the U-shaped groove (2b) for connection at both ends, the edge panel block (1a, 1b) U-shaped groove (2b) and linear groove characterized by forming a set of edge panel blocks for inserting a heating pipe (P) and laying various finishing materials (6) thereon (2c).
[Selection] Figure 2

Description

  The present invention relates to an indoor heating panel block, and more particularly to an edge (ear) panel block for laying a heating pipe on the floor of a room. When installing the heating pipe on the floor, a panel block is laid under the heating pipe in order to fix the pipe in an appropriate position in a groove formed therein. Since the pipe is bent and laid in a zigzag shape, it is necessary to make a panel block suitable for the straight part of the heating pipe and the bent part of the heating pipe. The present invention relates to a panel block used at an end portion and a manufacturing process thereof.

  Conventionally, to lay a heating pipe on the floor of a room, a panel having a zigzag-shaped groove is laid on the floor, and the pipe is laid in the zigzag-shaped bending groove. However, due to the various widths and lengths of the floor, there have been problems and inconveniences in fixing the tube in the panel groove at the end portion of the tube bent and zigzag-shaped.

  The object of the present invention is to solve the problems and inconveniences in the prior art that occur at the end of the heating pipe when laying the heating pipe in the floor heating panel of the room due to various widths and lengths of the floor. It is to be. In order to achieve the object of the present invention, in which the zigzag pipes are arranged at regular intervals and a long heating pipe is laid in the floor of the room, the panel block at one end portion is formed with a U-shaped groove, A rectangular panel block is provided at the end of the room so that the panel block at the other end is formed with both a U-shaped groove and a straight groove.

  The panel block of the present invention is laid horizontally at the end portion of the floor to be heated and connected to another panel block laid at the center portion of the floor, and the groove of the edge panel block is at the center portion of the floor. Matched with the groove of the panel block. The excess edge (if any) of the edge panel block is then trimmed to prepare the edge panel block as desired. By doing so, the groove of the edge panel block and the groove of the panel block are connected in a well-aligned state in the center portion of the floor, and the groove is formed in a zigzag shape, so that the long heating pipe is It can be easily laid in a zigzag pattern in the groove. Next, a finishing material such as a siding board or a marble board is laid on the pipe and the panel block.

  In the present invention, the heat released from the heating pipe is transmitted upward through the heat transfer plate, a part of the heat is stored in the heat storage layer, and a part of the heat is radiated upward. Although the amount of heat radiation through the heat storage layer varies throughout, the room is heated at a fairly stable temperature.

  Also, downward heat loss is prevented by the heat insulating layer, thereby increasing the amount of heat radiated from the heating pipe.

  Furthermore, since the panel block of the present invention facilitates the laying of the heating pipe on the edge of the floor, the heating pipe laying work efficiency is improved, the utilization efficiency of heat energy is increased, and the indoor heating efficiency is further increased.

  Hereinafter, the structure of the panel block in accordance with the object of the present invention will be described in detail with reference to the accompanying drawings.

  As shown in FIG. 1, a rectangular central panel block (1), each of which has a straight groove (2), is disposed in the center of the floor of the room so as to match the width of the room. 3 and 4, the heat transfer plate (4) made of a thin metal plate is placed on the heat insulating layer (3) so that the heat transfer plate (4) surrounds the lower part of the heating pipe (P). Next, a heat storage layer (5) is provided on the heat transfer plate (4). Each of the edge panel blocks (1a) has a U-shaped groove (2a), and the groove includes the heat insulation layer (5) in addition to the total thickness of the heat storage layer (5). The depth of the groove in the heat insulation layer (3) is half the diameter of the heating pipe (P). The end of the groove in each edge panel block (1a) is designed to be connected to the end of the adjacent central panel block (1) linear groove.

  In a similar manner, an edge panel block (1b) for the other side of the floor is provided, each of which is formed by a heat insulation layer (3), a heat transfer plate (4) and a heat storage layer (5), where: A U-shaped groove (2b) is added to the thickness of the heat storage layer (5) so that the end of the groove (2b) is aligned with the end of the groove of the adjacent central panel block (1). The depth reaches the heat insulation layer (3) by half the diameter of the heating pipe (P). In addition, the edge panel block (1b) includes a straight groove (behind the U-shaped groove (2b)) so that the end of the groove (2c) is aligned with the end of the adjacent panel block. 2c) is also provided. In the present invention, the edge panel block (1a) on one side of the floor and the edge panel block (1b) on the other side of the floor comprise a set of edge panel blocks (1a, 1b).

  A fixed length heating pipe having a bent portion in a zigzag shape is inserted into the groove (2, 2a, 2b, 2c) of the panel block (1, 1a, 1b), and then the horizontal accuracy adjustment work is performed. Of course, a finishing material such as a siding or marble board can be laid on the heat storage layer (5). Thus, the present invention relates to indoor heating edge panel blocks (1a, 1b).

  Furthermore, in order to construct various floor layers firmly, as shown in FIG. 5, the support part (3a) reinforces and maintains the balance, so that the heat insulating layer (3) is required. Built in.

  Hereinafter, the construction process aiming at achieving the object of the present invention in which the central straight panel block (1) and the edge panel blocks (1a, 1b) are laid as a set of indoor heating panel blocks will be described.

  In the laying of the rectangular central straight panel block (1) formed with the straight groove (2) developed to a size suitable for the floor area, an edge panel block (1a) is provided, A heat transfer plate (4) is laid on the heat insulating layer (3) in which the support portion (3a) is incorporated so as to surround the lower outer surface of the heating pipe (P), and the heat storage layer (5) is provided with the heat transfer layer (5). A U-shaped groove formed on the plate (4) is formed so as to reach the heat insulation layer (3) by a depth corresponding to the depth of the heat storage layer (5). Therefore, the depth of the groove in the heat insulating layer (3) is equal to half the diameter of the heating pipe (P), and the U-shape is aligned with the end of the groove of the adjacent panel block. It is formed so that the end of the mold groove is disposed.

  In the same manner as described above, an edge panel block (1b) is provided, in which a heat insulating layer (3), a heat transfer plate (4) and a heat storage layer (5) are formed, and the U-shaped groove (2b) The thickness of the heat storage layer (5) and the thickness of the heat insulation layer (3) halfway so that the end of the groove of the edge panel block is aligned with the end of the groove of the adjacent panel block. And the edge panel block (1a) and the edge panel block (1b) form a pair of edge panel blocks, and then a zigzag-shaped bend. A certain length of heating pipe (P) having a part is inserted into the groove (2, 2a, 2b, 2c) of the panel block (1, 1a, 1b), and then the finishing material (6) is said It is laid on the heat storage layer (5).

  In the present invention, the edge panel block is formed as a U-shaped groove connected to a straight groove formed in a straight panel block laid in the center portion of the floor, and starts from the edge panel block at the corner of the floor. By laying the panel blocks one by one, the work of laying a long heating pipe in the groove is facilitated. Then, after finishing the laying of the heating pipe, finishing materials such as siding boards or various panels and marble boards or various plates can be laid on the pipe simply and effectively.

  By using the edge panel block, the heating pipe can be laid easily and orderly.

  Depending on the floor area of the room to be heated, an indoor heater having a desired size may be constructed using the edge panel block and the central straight panel block.

  Furthermore, the heat radiated from the heating pipe is diffused in all directions through the heat transfer plate, and the indoor heating temperature is considerably stabilized regardless of the temporal change of the temperature radiated from the heating pipe. Part of the heat stored in the heat storage layer to be maintained and part of the radiant heat radiated directly outwards contribute to efficient indoor heating, thus producing various indoor heating effects .

  In the present invention, as shown in FIG. 1, a rectangular central straight panel block (1) having a straight groove (2) is laid in the middle or middle part of the floor according to the width and length of the floor of the room, As shown in FIGS. 2 and 3, in the edge panel block (1 a) in the portion A of FIG. 1, a heat transfer plate (4) made of a thin plate of aluminum, copper, or another metal is used as the edge panel block (1 a). A heat storage layer (5) formed of stone powder aggregated with an inorganic aggregating material such as gypsum is laid on the heat transfer plate (4), and then laid on the heat insulating layer (3), and then The U-shaped groove (2a) includes the heat insulating layer in addition to the thickness of the heat storage layer (5) so that the end of the U-shaped groove is aligned with the end of the groove of the adjacent panel block. (3) It is formed with a depth that reaches half of the thickness.

  Next, a finishing material (not shown) such as a siding board or a marble board is laid on the heat storage layer (5).

  In addition, in order to reinforce the heat insulating layer (3), as shown in FIG. 5, the supporting portion (3a) is provided anywhere on the finishing material so as to be able to withstand the load concentrated on the finishing material. It is installed under the heat transfer plate (4).

  As shown in FIG. 4, the edge panel block (1b) in the portion B of FIG. 1 is incorporated into a plurality of positions of the rectangular edge panel block (1b) by the same method as shown in FIGS. A heat transfer plate (4) made of a thin plate of aluminum, copper, or another metal having a supported portion (3a) is laid on the heat insulating layer (3), and then on the heat transfer plate (4). Is a heat storage layer (5) formed of stone powder agglomerated with an inorganic aggregating material such as gypsum, and then the U-shaped groove (2b) has the end of the U-shaped groove at the adjacent panel. In addition to the thickness of the heat storage layer (5), the heat insulating layer (3) is formed to a depth that reaches half of the thickness so as to align with the end of the block groove. Next, a straight groove (2c) is formed behind the U-shaped groove (2b) for connection at both ends. As shown in FIG. 1, the edge panel block (1a, 1b) as a set includes other panel blocks (1) because a heating pipe (P) is inserted into the groove to construct indoor heating equipment. ). According to this structure, as shown in FIG. 5, this invention discloses the construction process of the panel block for indoor heating.

[Embodiment]
Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

  In the present invention, the thickness of the heat insulating layer (3) made of a heat insulating material is at least 20 to 25 mm, the thickness of the heat transfer plate (4) is 0.3 mm, and the thickness of the heat storage layer (5). The length is about 10 mm. Therefore, since the groove (2a, 2b, 2c) needs to be as deep as 20 mm, a heating pipe (P) having a diameter of 16 to 18 mm can be inserted therein.

  As a 1st step, in order to ensure the space for laying the said heating pipe (P) when the said heating pipe (P) is laid with respect to a divider | distributor (not shown), A part in this invention And B part should be first laid on the wall of the room with the same thickness as the edge panel block.

  Next, as a second step, the groove (2a, 2b) of the edge panel block (1a, 1b) is connected to both ends of the straight groove (2) of the central straight panel block (1), and the groove (2c). ) Are connected in a straight line, the edge panel blocks (1a, 1b) in the present invention are laid on the left and right in the planar structure of the central straight panel block (1).

  As a third step, the long heating pipe (P) is inserted into the groove (2, 2a, 2b, 2c) of the panel block (1, 1a, 1b) starting from the end of the heating pipe (P). Then, various finishing materials (6) are laid on the panel block, thereby completing the laying operation of the heating pipe (P) laid in the groove of the edge panel block in a zigzag manner.

  In the laying of the edge panel block (1a, 1b) for indoor heating, the rectangular central straight panel block (1) having the straight groove (2) is arranged according to the width and length of the floor. Laid on the floor.

  In the edge panel block (1a), the heat transfer plate (4) is placed on the heat insulating layer (3) having a support portion (3a) incorporated in such a manner that the lower half of the heating pipe (P) is enclosed. Next, a heat storage layer (5) is formed on the heat transfer plate (4), and the U-shaped groove (2a) has an end of the U-shaped groove at the end of the groove of the adjacent panel block. In addition to the thickness of the heat storage layer (5), the heat insulation layer (3) is formed at a depth that reaches the middle of the thickness, so that the edge panel block (1b) In the same manner as described above, the heat insulating layer (3), the heat transfer plate (4), and the heat storage layer (5) are formed, and then the U-shaped groove (2b) is an end of the U-shaped groove. In addition to the thickness of the heat storage layer (5), the heat insulation layer (3) reaches the middle of the thickness so that is aligned with the end of the groove of the adjacent panel block. It is formed at an such depth. Next, a straight groove (2c) is formed behind the U-shaped groove (2b) for connection at both ends, and the edge panel block (1a) and the edge panel block (1b) are a set of edge panel blocks. The long heating pipe (P) is inserted into the groove (2, 2a, 2b, 2c) of the panel block (1, 1a, 1b) in a zigzag manner, and various finishing materials such as siding boards and marble boards (6) is laid on the heat storage layer (5) as shown in FIG.

  By using the edge panel blocks (1a, 1b) in the present invention, it is possible to lay the heating pipe (P) in an orderly and simple manner. In addition, several rows of the horizontal transverse grooves (2) are adjusted according to the width of the room, and the remaining part of the edge panel block (1a, 1b) can be cut out and adjusted according to the floor length of the room. By applying the groove (2a, 2b, 2c) by the adjustment and trimming of the panel block, the indoor heating equipment can be constructed in an orderly, simple and efficient manner.

  In the edge panel block in the invention, it is easy to install a heating facility in a room, particularly in an end portion of the floor, and the heat radiated from the heating pipe (P) is directed upward through the heat transfer plate (4). The room heating temperature is fairly stable regardless of temporal changes in the temperature radiated from the heating pipe (P) due to some heat stored in the heat storage layer (5) by diffusing in all directions including And maintain the benefits.

  By using the structure of the dry floor heating equipment in the present invention instead of the conventional wet mortar floor, it is easy to lay the equipment even in winter, shorten the construction time, and hold the building load and floor heating equipment To reduce construction costs and maximize energy utilization efficiency. The floor heating panel block and the manufacturing method thereof according to the present invention can be applied to places where a conventional wet mortar floor method is used, such as various factories, laboratories, hotels, association buildings, classrooms, and offices.

FIG. 1 is a top view of an edge panel block according to the present invention laid for room heating. FIG. 2 is a cross-sectional view of an important part of the panel block according to the present invention. FIG. 3 is a perspective view of a portion A of the edge panel block in FIG. 4 is a perspective view of a portion B of the edge panel block in FIG. FIG. 5 is an overall cross-sectional view of an edge panel block according to the present invention constructed for indoor heating.

Explanation of symbols

1: Central straight panel block 1a, 1b: Edge panel block 2, 2a, 2b, 2c: Groove 3: Heat insulation layer 4: Heat transfer plate 5: Heat storage layer 6: Finishing material P: Heating pipe

Claims (2)

An indoor heating edge panel block (1a, 1b) laid along a rectangular central straight panel block (1) formed in a straight groove (2) according to the width of the room,
The edge panel block (1a, 1b) includes a heat transfer plate (4) laid on the heat insulating layer (3) in a manner of sealing the lower half of the heating pipe (P), and the heat transfer plate (4 ) And a U-shaped groove (2a), wherein the end of the U-shaped groove (2a) is aligned with the end of the groove of the adjacent panel block. In addition to the thickness of the layer (5), an edge panel block (1a) comprising a U-shaped groove (2a) formed at a depth reaching the middle of the thickness of the heat insulating layer (3) Including
In the same manner as above, the heat insulating layer (3), the heat transfer plate (4), the heat storage layer (5), and the U-shaped groove (2b), the end of the U-shaped groove (2b) In addition to the thickness of the heat storage layer (5), the heat insulating layer (3) is formed to a depth that reaches half of the thickness so that the portion matches the end of the groove of the adjacent panel block. And an edge panel block (1b) comprising a U-shaped groove (2b),
Further, the edge panel block (1b) is provided with a straight groove (2c) behind the U-shaped groove (2b) for connection at both ends, and the edge panel block (1a) and the edge The panel block (1b) has a heating pipe (P) inserted therein, and a pair of edge panel blocks for laying various finishing materials (6) thereon is formed. Edge panel block for. In the laying method of the edge panel blocks (1a, 1b) for indoor heating laid along the rectangular central straight panel block (1) formed in a straight groove (2) according to the width of the room,
In the method of enclosing the lower half of the heating pipe (P), the edge panel block (1a) is provided with a heat transfer plate (4) on the heat insulating layer (3), and the heat storage layer (5) is provided with the heat transfer layer (5). The U-shaped groove (2a) is laid on the heat plate (4), and the U-shaped groove (2a) is arranged so that the end of the U-shaped groove (2a) is aligned with the end of the groove of the adjacent panel block (5). ) In addition to the thickness of the heat insulation layer (3), the heat insulation layer (3) is transferred to the edge panel block (1b) in the same manner as described above. A heat plate (4) and a heat storage layer (5) are provided, and the U-shaped groove (2b) is arranged such that the end of the U-shaped groove is aligned with the end of the groove of the adjacent panel block. In addition to the thickness of the heat storage layer (5), the heat insulation layer (3) is formed with a depth reaching the middle of the thickness,
The edge panel block (1b) is provided with a straight groove (2c) behind the U-shaped groove (2b) for connection at both ends to form a set of edge panel blocks. In the edge panel block (1a) and the edge panel block (1b), a long heating pipe (P) is inserted into the grooves (2, 2a, 2b, 2c) of the panel block (1, 1a, 1b) in a zigzag shape. And then an edge panel block (1a, 1b) for indoor heating, characterized by an edge panel block (1a) and an edge panel block (1b) on which various finishing materials (6) are laid on the heat storage layer (5) Laying method.

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