JP2018181844A - Planar heater and snow melting system using planar heater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a planar heater which can simplify construction work and reduce construction cost and to provide a snow melting system using the planar heater.SOLUTION: A snow melting system 26 comprises a string shaped planar heater 10; a conduct tube 28 in which the planar heater 10 is inserted; an electric wire 22 connected to the planar hater 10; and a control panel 30 connected to the electric wire 22 of the planar heater 10. A relay box 34 which comprises a conduct tube connector 32 for connecting the electric wire 22 is arranged between the electric wire 22 of the planar heater 10 and the control panel 30; the planar heater 10 is inserted into the conduct tube 28 to embed or arrange the same in a place to melt snow; and the electric wire 22 of the planar heater 10 is guided to the relay box 34 through the conduct tube connector 32, to arrange electric wire to melt snow. With this snow melting system, the construction work can be simplified and construction cost can be reduced.SELECTED DRAWING: Figure 3

Description

  BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to a snow melting system using a planar heater and a planar heater for melting snow such as a parking lot and a roof.

  Performing snow removal manually in heavy snow areas is very labor-intensive and sometimes dangerous. Conventionally, an effective snow melting means for avoiding the effort and danger of snow removal has been required.

Many conventional snow melting devices install a vinyl-insulated nichrome wire directly under the concrete asphalt to melt the snow, and if there is a short circuit due to any reason, remove the concrete or asphalt and newly add the concrete or The installation cost of the electric snow melting device was expensive because asphalt had to be rebuilt.
In addition, the consumption of electric power is also a factor that prevents the installation of snow melting equipment from growing.

  In order to solve the said subject, the installation structure of the planar heating element melt | fused using a planar heating element is provided (for example, patent document 1).

JP-A 54-103699

In the installation structure of the sheet heating element of Patent Document 1, the sheet heating element and the elastic body are placed in a cylindrical protective case, and the sheet heating element is brought into close contact with the protection case by the elastic body. While fixing the heating surface of a heat generating body to a protective case, replacement | exchange of a planar heat generating body is performed using the deformability of an elastic body. As a result, it is not necessary to remove and re-install concrete or asphalt, and the installation cost of the planar heating element can be reduced.
Moreover, in the installation structure of the planar heating element of patent document 1, as a planar heating element, sus430 thin film (made by Nippon Steel Corp.), thickness 80 micrometers, width 38 mm, waveform distribution width 4 mm, specific resistance 6. The thing (insulation thickness 5.5 mm, width 60 mm, length 100 cm, 50 W / m) which carried out the insulation coating by the low density polyethylene is used for the metal wave shape element which consists of ^38x10 <^-5> ohm * cm.

  However, the installation structure of the planar heating element of Patent Document 1 may be complicated in construction depending on the heater layout, and the construction cost may be high.

  In order to solve the above-mentioned fault, it aims at providing a snow melting system using a planar heater and a planar heater which enables simplification of construction and reduction of construction cost.

  The planar heater according to the present invention comprises a heater body 50 μm thick and 5 mm wide formed by extruding a stainless steel material, silicone rubber for covering and insulating the heater body, and a heater embedded in the silicone rubber along the heater body It consists of a tensile strength reinforcing material that reinforces the main body, and glass fiber that covers silicone rubber, and is in the form of a string having a thickness of 4 mm, a width of 7 mm, and a length of 10 m to 20 m.

  The snow melting system using the planar heater according to the present invention comprises the planar heater, a conduit for inserting the planar heater, an electric wire connected to the planar heater, and a control panel connected to the electric wire of the planar heater. The relay box is provided with a conduit connector part for connecting the electric wire between the electric wire of the planar heater and the control panel, and the planar heater is inserted into the conduit and buried in the snow melting place or installed in the snow melting place. The electric wire of the heater is led to the relay box through the conduit connector portion, and wiring for snow melting is performed.

The planar heater according to the present invention is found by the inventor of the present invention by repeating trial and error in order to save energy consumption. Thereby, energy saving of power consumption can be achieved.
The snow melting system using the planar heater according to the present invention is provided with a relay box for collecting wires connected to the planar heater. This can simplify construction and reduce costs.

It is a figure showing the composition of the planar heater of the present invention. It is a figure showing the connection part of a planar heater and a connection electric wire. It is a figure showing the composition of the snow melting system using the planar heater of this invention installed in a parking lot. It is a figure showing the layout figure (heater layout) of the conduit embedded in the parking lot of FIG. It is AA sectional drawing of FIG. It is a figure showing the conduit | pipe connector part of the junction box of FIG. It is a figure showing the composition of the snow melting system of the present invention installed in the roof of a building.

  The present invention makes it possible to realize cost reduction of a snow melting system by using a planar heater.

DESCRIPTION OF THE PREFERRED EMBODIMENTS The surface heater and the snow melting system using the surface heater according to the present invention will be described based on the drawings. FIG. 1 is a diagram showing the configuration of a planar heater according to the present invention. FIG. 2 is a diagram showing a connection portion between the planar heater and the connecting wire. FIG. 3 is a diagram showing the configuration of a snow melting system using the planar heater according to the present invention installed in a parking lot. FIG. 4 is a diagram showing a layout diagram (heater layout) of a conduit embedded in the parking lot of FIG. FIG. 5 is a cross-sectional view taken along the line A-A of FIG. 6 is a view showing a conduit connector portion of the relay box of FIG. 3;
The planar heater of the present invention will be described based on FIG.
The planar heater 10 according to the present invention comprises a heater main body 12 (stainless steel foil) having a thickness of 50 μm and a width of 5 mm formed by extruding a stainless steel material, silicone rubber 14 for covering and insulating the heater main body 12, and silicone rubber 14. 4 mm in thickness and 7 mm in width, consisting of a tensile strength reinforcing material 16 (made of Kevlar (registered trademark)) for reinforcing the heater body 12 embedded along the heater body 12 and a glass fiber 18 for covering the silicone rubber 14 , 10 m to 20 m in length are formed like a cord.
The planar heater 10 is found by the inventor of the present application by repeating trial and error to enable energy saving of power consumption. The length of the planar heater 10 required for installation in a snow melting place (place where the planar heater 10 is installed) is approximately 10 m to 20 m. The temperature required for snow melting is 53 ° C. or higher. For example, according to the heater main body 12 (stainless steel foil) having a thickness of 30 μm and a width of 5 mm, the temperature necessary for snow melting at 53 ° C. or more can be secured in 10 m to 14 m in length, but necessary for snow melting in lengths exceeding 14 m I could not secure the temperature. As a result of repeating trial and error, the inventors of the present application have found that the temperature necessary for snow melting of 53 ° C. or higher can be secured in 10 m to 20 m by setting the heater main body 12 (stainless steel foil) to 50 μm thick and 5 mm wide.
Moreover, when power consumption was compared with the conventional electric heater, it turned out that the power consumption required for snow melting is half that of the conventional electric heater.
In the parking lot of this embodiment, the thickness is 50 μm, the width is 5 mm, and the length is 15 m (in FIG. 4, the length of the planar heater 10 from one conduit connector portion 32a to the other conduit connector portion 32b through the conduit 28) The planar heater 10 (stainless steel heater) was used as an AC 200 V 1 circuit, and the one having a set temperature of 53 ° C. to 68 ° C. was laid inside the concrete asphalt.

  In addition, the planar heater 10 is connected with the connection electric wire (KIV 1.25) 22 by the crimp sleeve (B5.5) 20 for copper wires (FIG. 2). Further, the wire connection portion is coated with a heat-shrinkable tube (manufactured by Raychem, with 1/4 ES 2000 adhesive) 24 for 60 mm. This makes it possible to meet the waterproof standard IP68.

  The snow melting system 26 using the planar heater according to the present invention includes the planar heater 10, the conduit 28 into which the planar heater 10 is inserted, the electric wire 22 connected to the planar heater 10, and the electric wire 22 of the planar heater 10. The relay box 34 is provided with a conduit connector portion 32 for connecting the electric wire 22 between the electric wire 22 of the planar heater 10 and the control panel 30, and the planar heater 10 is inserted into the conduit 28. Then, it is buried in the snow melting place or installed in the snow melting place, and the electric wire 22 of the planar heater 10 is guided through the conduit connector portion 32 to the relay box 34 and wiring for snow melting is performed. The snow melting system 26 can simplify the construction and reduce the construction cost.

In FIG. 3, a resin pipe (PF-16) 36 and a galvanized steel pipe (E19 metal galvanized pipe) 38 are used as the conduit 28. The resin tube 36 protects the wire (electric wire 22) connected to the planar heater 10. In addition, the resin pipe 36 is connected to the control panel 30 via the relay box 34 and also serves as an inspection port.
One conduit 28 embedded in the parking lot is a U-shaped steel pipe 38 (FIG. 4). In FIG. 3, the folded portion of the conduit 28 is formed by a resin pipe 36. Further, the steel pipe 38 and the resin pipe 36 can be connected at one touch by the connecting device 40 (CP adapter for PF pipe), and the construction time can be significantly reduced.
The conduit 28 is not limited to the resin pipe (PF-16) 36 and the galvanized steel pipe (E19 pipe) 38, but may be any pipe having equivalent performance.

In FIG. 3, a steel pipe 38 into which the planar heater 10 is inserted is buried in the ground (FIG. 5). The resin pipe 36 (resin pipe PF-16) is connected (connected by one touch) to the steel pipe 38 via the connection device 40 (CP adapter for PF pipe). The resin pipe 36 is detachably attached to the conduit connector portion 32 of the relay box 34. Further, the control box 30 is communicated through the relay box 34.
A plurality of holes are formed in the bottom of the relay box 34, and each hole is provided with a conduit connector 32 (FIG. 4, FIG. 6). The connecting wires 22 of the planar heater 10 guided to the relay box 34 through the resin pipe 36 attached to the conduit connector portion 32 connect the planar heaters 10 laid in the relay box 34 in series connection or parallel connection. (Not shown). This enables snow melting.
When an abnormality occurs in the planar heater 10, the planar heater 10 having the abnormality is removed from the resin pipe 36 and the steel pipe 38, and the normal planar heater 10 is inserted into the resin pipe 36 and the steel pipe 38 for replacement. Do. In the replacement operation, one end of the planar heater 10 having an abnormality is connected to one end of a normal planar heater 10, and the planar heater 10 having the abnormality is removed. Thereby, the planar heater 10 can be replaced easily and in a short time without breaking the surface 42 (concrete, asphalt, etc.) of the parking lot.
Further, by providing the plurality of conduit connector portions 32 in the relay box 34, the planar heaters 10 to be embedded or installed can be integrated into the relay box 34, so that centralized management can be performed. That is, the relay box 34 serves to improve the work relating to the installation of the snow melting system 26 and the replacement of the planar heater 10, and also plays a role as an inspection port. As a result, maintenance of the snow melting system such as inspection of the planar heater can be performed only by the relay box, so maintenance work becomes easy and failure of the snow melting system can be prevented.
As described above, the snow melting system 26 using the planar heater 10 has a simple structure in which the wires 22 (cables) of the planar heater 10 are integrated into a relay box (pool box) installed on the ground, The construction can be simplified and the construction cost can be reduced.
Moreover, since it can replace | exchange only by taking in and out the planar heater 10, without destroying the concrete asphalt which embeds the planar heater 10, the cost after installation can also be reduced.

The snow melting system 26 of the present invention can also be installed at other snow melting places. The case of installation on the roof of a building will be described based on FIG. FIG. 7 is a diagram showing the configuration of a snow melting system using the planar heater according to the present invention installed on the roof of a building.
In the case where snowdrops and icicles (icicles) are formed at the eaves 44 a of the roof of the building 44, the conduits 28 (resin pipes) are installed along the arabesque (tack) 46 of the eaves 44 a. The conduit 28 installed on the roof is easy to attach in the form of a square pipe.
In addition, when newly installing a snow melting system on the roof where snow and ice pillars are formed, compared to the conventional installation method where the color iron plate on the roof surface is peeled off once and the electric heater is laid under the steel plate The installation method of the present invention for attaching the conduit 28 in which the planar heater 10 is inserted into the portion 46 is simple in installation and can reduce the construction cost.

  As described above, according to the planar heater of the present invention and the snow melting system using the planar heater, the construction relating to the installation of the planar heater can be simplified, and the construction cost can be reduced. In addition, since the cost of power consumption can be reduced as compared with the conventional electric heater, the running cost can also be reduced.

DESCRIPTION OF SYMBOLS 10 planar heater 12 heater main body 14 silicone rubber 16 tensile strength reinforcement 18 glass fiber 22 electric wire 26 snow melting system 28 conduit 30 control panel 32 conduit connector part 34 relay box

Claims (2)

A heater body 50 μm thick and 5 mm wide formed by extruding a stainless steel material, silicone rubber for covering and insulating the heater body, and a tensile strength reinforcing material for reinforcing the heater body embedded along the heater body in silicone rubber A planar heater comprising a glass fiber coated with silicone rubber and having a thickness of 4 mm, a width of 7 mm, and a length of 10 m to 20 m. A planar heater according to claim 1, a conduit for inserting the planar heater, an electric wire connected to the planar heater, and a control panel connected to the electric wire of the planar heater, the electric wire and control of the planar heater Provide a junction box with a conduit connector that connects the wires with the board, insert a planar heater into the conduit and embed it in the snow melting place or install it in the snow melting location, and wire the planar heater through the conduit connector A snow melting system using a planar heater, characterized in that the relay box is led and wired for snow melting.

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