JPH0473481B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Technical Field of the Invention) The present invention relates to a snow/ice melting heating piping device for preventing or melting ice or snow accumulation at desired locations other than roads, such as bridges and roofs of buildings.

(Technical background of the invention and its problems) Removing snow from the roofs of buildings in areas with heavy snowfall
With a few exceptions, this work is still done manually. However, on the other hand, due to the recent rapid depopulation of entrances and the aging of the population, annual removal of snow from roofs has become a serious problem, and elderly people have fallen and been injured while removing snow. , accidents resulting in death are occurring frequently, and this is becoming a major social problem. In addition, in the past, methods such as installing sprinklers and sprinkling water or spraying calcium chloride have been used to prevent snow accumulation, snow melting, or freezing of parking lots, bridges, and public facilities in areas with heavy snowfall or cold regions. It is being said.

However, installation of the above-mentioned sprinklers is expensive, and the nozzles are easily clogged with dirt and sand, which increases the water pressure and causes problems such as water being sprayed out from the nozzles that are not clogged. . In addition, dispersing calcium chloride is complicated, requires a lot of labor, and costs a lot of money, so it cannot be easily used at home.

(Purpose of the Invention) This invention was made with attention to the above circumstances, and its purpose is to install certain types of buildings such as bridges, building roofs, grounds, and public facilities that require no ice or snow. It is possible to prevent freezing and snow accumulation by heating a spatial area, and it is also possible to quickly and inexpensively thaw ice and snow after freezing, and is easy to install and durable. To provide a heating piping device for melting snow and ice that is durable and can be used semi-permanently.

(Summary of the Invention) In order to achieve the above-mentioned object, the present invention provides a method of installing a large number of seamless pipes in a straight line and approximately parallel to each other on or below the surface of a desired location other than a road where snow and ice melting is desired. At the same time, an inlet header and an outlet header are respectively arranged on both ends of the pipe in a direction perpendicular to the pipe, and one end of the same side of each pipe is alternately connected to the inlet header and the outlet header. The other end of the pipe that is connected to the outlet header and whose one end is connected to the inlet header is the other end of the pipe that is connected to the outlet header, and the other end of the pipe that is connected to the outlet header is the other end of the pipe that is connected to the inlet header. The pipes are connected to the side headers to form a piping unit, and the inlet header of the piping unit is connected to the supply side of the heat medium generation source to allow a heat medium such as hot water or hot brine to flow through each of the pipes, In addition, the heating medium is configured to flow in opposite directions in adjacent pipes to uniformly heat the area.

(Embodiments of the Invention) The present invention will be described below based on embodiments shown in the drawings.

1 to 10 show embodiments of the present invention, in which 1 indicates a place where snow or ice melting is to be performed;
For example, it is a roof. A piping unit 3 through which a heat medium such as hot water flows is installed and fixed at the base 2 of the roof 1, and the upper part of the piping unit 3 is covered with a galvanized steel plate 4. Above piping unit 3
is constructed as shown in FIGS. 3 and 4. That is, 5... are pipes for heat medium distribution arranged linearly and almost parallel to the longitudinal direction of the roof 1, and an inlet side header 6 and an outlet side header are provided at both ends of these pipes 5... 7 are arranged in parallel and in a direction perpendicular to the pipes 5. One end of each of the pipes 5 on the same side is alternately connected to the inlet header 6 and the outlet header 7 every other pipe, and the other end of the pipe 5 is connected to the inlet header 6 and the outlet header 7. Pipe 5 connected to the inlet header 6...The other end is connected to the outlet header 7 at the other end
The pipe 5 has one end connected to the outlet header 7, and the other end thereof is connected to the inlet header 6 at the other end. In other words, each pipe 5... has one end connected to the inlet header 6 and the other end connected to the outlet header 7.
The heating mediums are connected to the pipes 5 and are arranged so that the flow directions of the heat medium flowing through the pipes 5 are opposite to each other. (In FIG. 3, the arrow indicates the flow direction of the heat medium.) The inlet header 6 is connected to the outlet of a heat medium generation source, for example, a boiler 9, via a feed pipe 8, and the outlet header 7 is It is connected to a suction port 12 of a pump 11 via a return pipe 10. The discharge port 13 of the pump 11 is connected to the inlet of the boiler 9, forming a heat medium circulation path 14.

The pipe 5 through which the heat medium flows is generally a pipe made of metal or synthetic resin, but in the case of a metal pipe, as shown in FIG. A synthetic resin film 15 made of polyamide or the like having corrosion resistance is applied to the inner and outer surfaces by painting, electrodeposition, coating, laminating, or the like. The thickness of this synthetic resin film is preferably 1.2
mm, but in order to protect this synthetic resin coating 15, its surface may be coated with another strong synthetic resin coating.

Furthermore, in the case of metal pipes, it is convenient to use soft steel pipes with a composition ratio of 99% or more iron, for example, in consideration of ease of transportation and construction. That is, since the pipe 5 made of such a soft steel pipe can be wound and stretched relatively easily by the winding and feeding device 16 shown in FIG. 6, it can be used as a seamless long pipe. , work such as welding becomes unnecessary. This winding and feeding device 16 has a winding frame 17 that winds the pipe 5 in a coil shape, and the pipe 5 that is fed out by the rotation of the winding frame 17 is moved by a plurality of pinch rollers 18 . It is straightened and extended as a straight pipe 5. Therefore,
When piping the pipe 5 to the roof 1, it is arranged at the end of the roof, and when the winding frame 17 is rotated to unwind the coiled pipe 5, the pipe 5 is straightened by the pinch rollers 18... while being carried out,
Extended straight. After the required number of long pipes 5 are drawn out and stretched in this way,
Piping along the length of the roof, each pipe 5
... are arranged in parallel. And each pipe 5
. . . One end is connected to the inlet header 6, and the other end is connected to the outlet header 7 at the other end. At this time, the ends of the pipes 5 on the same side are alternately connected to the inlet header 6 and the outlet header 7. After each pipe 5 . . . and the inlet header 6 and outlet header 7 are installed, the piping unit 3 is laid at the base of the roof 1 by carrying out ordinary roofing work. In this case, the pipe 5 is a soft steel pipe, but since the synthetic resin coating 15 is applied to its surface, there is no risk of corrosion, and therefore there is no need to increase the wall thickness of the steel pipe as a corrosion allowance.
The action of the heat medium can be fully exerted.

When using a synthetic resin pipe as the pipe 5, using a pipe that is corrosion resistant and flexible, such as an ethylene vinyl pipe, can withstand long-term use and is lightweight, making it easy to carry and install. It is suitable because it is easy and can be placed exposed on roof tiles or buried in the ground of concrete pavement.

It is preferable that the synthetic resin coating 15 applied to the metal pipe or the synthetic resin itself constituting the pipe in the case of a synthetic resin pipe contains carbon and/or an ultraviolet absorbing material. Such pipes are highly weather resistant and have good thermal conductivity.
Further, the pipe 5 generally does not need to be a single pipe, but may be a double pipe as shown in FIG. When two pipes are used in this manner, the piping work when reversing the flow direction of the heat medium flowing through the pipes between adjacent pipes is easy, and the pipes can be easily maintained at regular intervals.

In the case of synthetic resin pipes, many pipes 5...
may be formed into a mat shape held by a spacer 19 provided substantially perpendicular to the pipe 5, as shown in FIG. If you use a pipe pre-formed into a pine shape like this,
Not only is it convenient to transport, but it is sufficient to lay the mat at the desired location and connect both ends to the header, improving the efficiency of piping work and making it easy to remove.

The pipe 5... is generally installed at a desired location other than the road via a heat insulating material, etc., but in that case,
As shown in FIGS. 9 and 10, the pipe 5...
... can also be constructed in a space by a support 20 having a certain height. This support body 20 is composed of a band-shaped base 21 and a support part 22 provided upright on the base, and an engaging part 23 provided on the support part 22.
The pipe 5 is fitted into the hole. With this configuration, since the pipes 5 are held in space, the heating effect of the heating medium is applied not only to the upper portions of the pipes but also to the lower portions thereof, which is convenient for melting snow in areas with deep snow, for example.

In the above embodiment, one end of the pipe 5 is connected to the inlet header 6, and the other end is connected to the outlet header 7.
Although the pipe 5 and the headers 6, 7 may be connected via sub-headers.

Further, in the above embodiment, hot water and hot brine are circulated as means for circulating the heat medium through the pipe, but hot water may be discharged from the outlet side header.

(Effects of the Invention) As explained above, according to the present invention, by installing pipes for circulating heat medium to desired locations other than roads, such as bridges, roofs of buildings, and grounds, it is possible to avoid freezing even in cold regions. , can prevent snow accumulation, and can quickly thaw and thaw even after freezing or snow accumulation. Therefore, it is free from the problems that occur with conventional sprinklers, is more economical than calcium chloride spraying methods, and can be used for a long period of time. Furthermore, according to the present invention, since the piping unit is simply installed at a desired location other than the road, the construction work is simple and inexpensive, and has great practical value.

[Brief explanation of the drawing]

Fig. 1 is a plan view of the piping unit of the present invention installed on the roof, Fig. 2 is a side view thereof, Fig. 3 is a plan view of the piping unit, and Fig. 4 is a system diagram of the piping device of the invention. , FIG. 5 is a cross-sectional view of a metal pipe, FIG. 6 is a plan view showing a method of piping a metal pipe, FIG. 7 is a perspective view of a different pipe, and FIG. 8 is a perspective view of yet another pipe. FIG. 9 is a side view of the pipe supported by a support, and FIG. 10 is a sectional view thereof. 1... Roof, 3... Piping unit, 5... Pipe, 6... Inlet side header, 7... Outlet side header,
9... Boiler (heat medium generation source).

Claims (1)

[Scope of Claims] 1. A large number of seamless pipes are arranged in a straight line and approximately parallel to each other at a desired location other than a road, and an inlet header and an outlet header are respectively provided at both ends of the pipes. one end of the same side of each pipe is connected alternately to the inlet header and the outlet header, and the other end of the pipe is connected to the inlet header. One end of the pipe is connected to the outlet header at the other end, and the other end of the pipe is connected to the inlet header at the other end to form a piping unit, and each inlet header of this piping unit is Snow melting/ice melting heating characterized in that the heat medium is connected to the supply side of the heat medium generation source and circulated in each of the pipes, and the direction of flow of the heat medium is opposite in adjacent pipes. Piping equipment. 2. The snow-melting/ice-melting heating piping device according to claim 1, wherein the pipe is made of metal and has a synthetic resin coating having corrosion resistance on at least its outer surface. 3. The snow-melting/ice-melting heating piping device according to claim 1, wherein the pipe is made of a synthetic resin having corrosion resistance. 4. A large number of pipes are held by a plurality of spacers provided substantially perpendicular to each pipe,
The snow melting/ice melting heating piping device according to claim 1, characterized in that it is formed in a pine shape as a whole. 5. The snow melting/ice melting heating piping device according to claim 1, wherein the plurality of pipes are supported in space by a support having a constant height.