JP2016207519A - Method for thawing frozen in-line water and thawing device used therefor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a thawing method and a thawing device which do not burden an operator when thawing iced water in piping in the freezing method of metal piping, shorten the time and do not involve danger.SOLUTION: The method of thawing the frozen water in the piping is a thawing method for freezing water in the piping made of metal by the freezing method, thawing the frozen water in the state of being in the water stopped state, and restoring the water to the water passing state. The method includes covering the outer surface of the piping with a heating sheet containing a magnet wire electrically connected to an electromagnetic induction device powered by alternating current and performing electromagnetic induction heating on the piping to thaw the frozen water. The thawing device comprises an electromagnetic induction device having a power switch, an output setting volume and a switch for heating, and a heating sheet incorporating a magnet wire electrically connected to the electromagnetic induction device.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a method for thawing frozen pipe water and a thawing device used for the method, and more particularly to thawing pipe water frozen by applying a freezing method.

  Conventionally, maintenance work for repairing and replacing damaged pipes, particularly water supply pipes, required closing the valve and shutting off the surrounding area. This water outage state has a great adverse effect on the surrounding area, and in order to avoid it, by partially freezing water mainly in the primary side of the target piping using liquid air, liquid nitrogen, etc., There is now a construction method that stops water flow without closing the valve and shutting off water.

  However, the pipe water frozen by this freezing method takes a long time to wait for it to spontaneously thaw, and this frozen pipe water is actively thawed and thawed to return to the normal water flow state. Therefore, conventionally, heating by a flame using a gas torch or heating by hot air using an electric dryer is performed.

  However, the thawing by the above-described method is always performed while the operator operates and monitors the tool on the site, and the time and burden required by the worker increase, and the danger burden due to the flame and hot air also increases. It was something that would end up.

  Although the applicant investigated the prior art documents related to the present invention, the applicant could not find any documents that seem to be particularly similar to the present invention.

  The problems to be solved by the present invention are that the conventional method of thawing the water in the pipe that has been frozen and frozen by installing the freezing method does not place a burden on the operator, shortens the time, and reduces the risk. There is no thawing method and thawing apparatus that are not accompanied.

  In order to solve the above-described problems, the method for thawing frozen pipe water according to the present invention is to freeze the water in the metal pipe by freezing the water in the freezing method, A thawing method for thawing and restoring a water flow state, covering the outer surface of the pipe with a heating sheet containing a magnet wire electrically connected to an electromagnetic induction device powered by an alternating current, and It is characterized by thawing frozen water by performing electromagnetic induction heating, and the above-described electromagnetic induction device is characterized by variable output.

  Further, the thawing device according to the present invention includes an electromagnetic induction device having a power switch, an output setting volume and a switch for heating, and a heating sheet containing a magnet wire electrically connected to the electromagnetic induction device. The magnet wire described above is arranged in an angular vortex in the heating sheet, the heating sheet covers the outer surface of the silicon rubber layer in which the magnet wire is embedded, and a waterproof canvas, The outer surface of the waterproof canvas is coated with fluoro rubber, and the heating sheet described above is characterized in that it has flexibility so as to fit the outer surface of the pipe.

  The method for thawing frozen pipe water according to the present invention and the thawing device used therefor are configured as described above. Therefore, the lines of magnetic force (magnetic flux) from the magnet wire of the heating sheet act on the metal (steel) pipe, induce an induced current in the pipe, the pipe generates heat and is heated, and this heating freezes. It is necessary to defrost the piped water, and it is no longer necessary for the operator to always be present and monitor, there is no danger, the output can be changed, and the time required for thawing is shortened. Become.

It is a perspective view which shows the use condition of the thawing | decompression apparatus which concerns on this invention. It is sectional drawing of a heating sheet. It is a figure which shows the structure of a magnet coil. It is a top view of a heating sheet. It is a front view of an electromagnetic induction device.

  This was realized by configuring as illustrated in the drawings and described in the examples.

  Next, an example of a preferred embodiment of the present invention will be described with reference to the drawings. In these drawings, 1 indicates a heating sheet, and 2 indicates a target steel pipe. In the heating sheet 1, a single magnet wire 3 is wound and arranged in a substantially square spiral shape, and is embedded in the silicon rubber layer 4. This silicon rubber layer 4 keeps the position of the magnet wire 3 and is in an insulated state.

  Both ends of the outer surface of the silicon rubber layer 4 are encapsulated with a waterproof canvas 5. The entire outer surface including the waterproof canvas 5 is further coated with a fluoro rubber 6 to prevent the surface from being scratched, soiled, and waterproofed. It is said that.

  The heating sheet 1 is configured as described above, and retains flexibility according to the characteristics of the magnet wire 3 and the coating characteristics of the silicon rubber layer 4, the waterproof canvas 5 and the fluoro rubber 6. It can be deformed to fit the outer surface, and the deformation and bending can be repeated any number of times. And between the both ends encapsulated by the waterproof canvas 5 acts as the actual heating range 3d.

  Further, from one end of the heating sheet 1, the starting end 3a and the terminal end 3b of the magnet wire 3 are exposed to the outside, and single-pole connectors 7 and 7 are provided at the ends of the starting end 3a and terminal end 3b, respectively. These single-pole connectors 7 and 7 are connected to an input port and an output port of an electromagnetic induction device which will be described later. The single-pole connectors 7 and 7 have a built-in crimp terminal.

  Furthermore, since a part of the outer surface of the heating sheet 1 has a return wiring portion that is formed in the shape of a square vortex of the magnet wire 3, the magnet wire 3 overlaps to form a bulging protrusion 3c.

  On the other hand, reference numeral 8 denotes an electromagnetic induction device for causing the magnet wire 3 to act. The electromagnetic induction device 8 has a substantially cubic casing, and circuit equipment is accommodated in the casing. The electromagnetic induction device 8 includes four support legs 8a, 8a,... On the bottom surface and two handles 8b on the top surface, thereby enabling conveyance and position movement.

  The electromagnetic induction device 8 is provided with a power switch 9 and a heating start switch 10, a volume 11 for setting an output, a timer 12 for setting an operation time, and a status display lamp 13 on the front. Further, an intake port for air-cooling the inside is provided on one side surface, and an intake port cover 14 is provided. The exhaust port is formed on the back surface. In addition, a connection port to which the single-pole connectors 7 and 7 of the magnet wire 3 are connected is configured on the back surface.

  The apparatus for thawing frozen in-pipe water according to the present embodiment is configured as described above, and the method of use and operation thereof will now be described. First, when the heating sheet 1 is brought into contact with the outer surface of a target pipe (steel pipe) 2 and the power switch 9 and the heating start switch 10 of the electromagnetic induction device 8 are turned on, the alternating current is supplied to the single-pole connector 7. , 7 and flows into the magnet wire 3. Due to this current, an induced current is induced in the pipe 2 by a magnetic flux (line of magnetic force), and since the pipe 2 is made of steel, the pipe 2 itself generates heat and is heated. The frozen water (ice) W is thawed, thawed, and restored to a normal water flow state.

  The method for thawing frozen pipe water according to the present invention and the thawing device used therefor are configured as described above, and the size of the heating sheet 1 and the length of the magnet wire 3 are appropriately changed as necessary. It is something that can be done. As a result, thawing of the frozen pipe water eliminates the time and labor burden on the operator, and the required time is greatly shortened.

  The present invention is intended to be used when maintaining piping without water cut off by the freezing method, but for thawing when the water in the water pipe has frozen in the winter or cold districts. Can also be applied.

1 Heating sheet 2 Piping (steel pipe)
3 Magnet wire 4 Silicon rubber layer 5 Waterproof canvas 6 Fluoro rubber 7 Single pole connector 8 Electromagnetic induction device 9 Power switch 10 Heating start switch 11 Output setting volume 12 Timer 13 Status indicator lamp 14 Inlet box W Freezing water (ice)

Claims (5)

  An electromagnetic induction device that uses AC as a power source for thawing frozen water in a water-stopped state by freezing water in a metal pipe by a freezing method and restoring it to a water-flowing state. In the frozen pipe, the outer surface of the pipe is covered with a heating sheet containing a magnet wire electrically connected to the pipe, and the frozen water is thawed by performing electromagnetic induction heating on the pipe. How to thaw water.   2. The method for thawing frozen pipe water according to claim 1, wherein the output of the electromagnetic induction device is variable.   A frozen pipe comprising: an electromagnetic induction device having a power switch, an output setting volume and a switch for heating; and a heating sheet containing a magnet wire electrically connected to the electromagnetic induction device. Internal water thawing device.   The magnet wire described above is arranged in an angular vortex in the heating sheet, and the heating sheet covers the silicon rubber layer in which the magnet wire is embedded, and the outer surface of the silicon rubber layer is covered with a waterproof canvas, and further, the outer surface of the waterproof canvas The apparatus for thawing frozen pipe water according to claim 3, wherein the water is coated with fluororubber.   The frozen heating water in a pipe according to claim 3 or 4, wherein the heating sheet has flexibility so as to fit to an outer surface of the pipe.

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