JP3514059B2 - Piping cover - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The invention of this application relates to a pipe cover. More specifically, the invention of this application is useful for preventing freezing of indoor piping in cold regions,
It concerns a new plumbing cover.

[0002]

2. Description of the Related Art In indoor pipes such as bathrooms, washbasins and toilets, in cold regions, water in the pipes may freeze in winter. Therefore, measures have been taken such as arranging the piping not on the outer wall side but on the room partition side. However, there is a problem that such an arrangement is limited by the structure of a building such as a house and the circumstances of the layout.

Therefore, it has been conventionally practiced to provide a heat insulating layer around the pipe or to wind the pipe with a heater such as a cord or a ribbon to prevent freezing.

[0004]

However, even if a heat insulating layer is provided around the pipe, this alone is not effective for preventing freezing. Actually, for example, when the piping of the bathroom unit is taken as an example, as shown in FIG.
When a foamed urethane heat insulating material having a thickness of 30 mm is provided around the copper tube of 5.8, G. W. (Glass wool) is pressed down by the pipe and the thickness becomes about 24 mm. Since the pipe is thermally insulated, heat from the unit having a high temperature is cut off, and the inside of the pipe shows a temperature between the outside air temperature and the unit temperature. For example, if the outside air temperature is -20 ° C and the unit temperature is 5 ° C, the temperature inside the pipe will be -5 ° C. Therefore, freezing cannot be prevented only by insulating the pipe.

Further, the antifreezing method in which the heater is wound around the pipe has a problem in that the heater may be operated when the user is absent and an accident may occur, and in the case of a power outage, it may be frozen. Therefore, the invention of this application solves the above-mentioned drawbacks of the antifreezing measures in the conventional piping, and the appropriate and effective antifreezing is performed as a simple construction, and there is no fear of an accident. It aims to provide a new technical means of.

[0006]

In order to solve the above problems, the invention of the present application is a pipe cover arranged around a hot water supply pipe or a water supply pipe, and the pipe is sandwiched from both sides. Has a curved surface along the circumferential surface of the pipe for
Its phase change temperature therein comprises a plurality of thermal storage material containers蓄<br/> heated material Ru is housed is -2 ° C. to 10 ° C. approximately, tucked a piping on the outer periphery of the heat storage material container Provided is a piping cover having a heating heater wound thereon.

[0007] The invention of this application, further heat insulating material layer on the outer periphery of the heat Ta is provided, furthermore,
Irregularities are provided on the outer peripheral surface of the heat storage material container, a pipe cover around which the heater is wound, and irregularities on the outer peripheral surface of the heat storage material container are provided so that the heater is spirally wound. In the pipe cover in which the pipe is sandwiched by the two heat storage material containers, the two heat storage material containers are movably connected to each other at one end of each curved surface, and the heat storage material container is on top of it. A pipe cover or the like having a heat storage material injection port and having an upper air layer after storing the heat storage material therein is also provided as one aspect thereof.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION The invention of this application comprises a pipe cover having the above-mentioned features. The following examples will be given to explain the embodiments of the invention in more detail.

[0009]

1 is a perspective view illustrating a pipe cover according to the present invention. For example, as illustrated in FIG. 1, the pipe cover of the present invention is provided along the circumferential surface of the pipe (1) for pinching hot water supply or water supply pipe (1) made of copper pipe from both sides. Heat storage material containers having curved surfaces (2)
The heat storage material container (2) contains therein the heat storage material (3) having a phase change temperature in the range of about −2 ° C. to 10 ° C.

Then, a heater (4) for heating is wound around the outer periphery of the heat storage material container (2) sandwiching the pipe as shown in FIG. 1, and the periphery of the heater (4) is shown in FIG. As shown, a layer of insulation (5) is provided. In addition, in this example, the heat storage material container (2) has unevenness (6) on the outer periphery thereof as illustrated in FIG. 3 together with FIGS. 1 and 2, and along this unevenness (6). The heater (4) can be wound, for example, in a spiral shape. Furthermore, a heat storage material filling port (7) is provided on the top of the heat storage material container (2).

As the heat storage material (3), a mixture of water and a supercooling inhibitor (phase transition temperature 0 ° C.) or sodium sulfate 1
Examples thereof include a 0-hydrate salt mixture (phase transition temperature 5 ° C to 9 ° C). Since the heat storage material (3) becomes liquid when heated, it is sealed in the heat storage material container (2). As the container (2), various kinds of resin containers such as polyethylene and polypropylene and resin film bags can be used. The still water in the pipe (1) usually causes supercooling and does not start freezing unless the temperature becomes -4 ° C or lower. In order to prevent cooling to this temperature, the phase change temperature of the heat storage material (3) is preferably about −2 to 10 ° C.
In order to reliably prevent freezing, the temperature change of the heat storage material (3) is preferably -1 ° C or higher.

The temperature of tap water may drop to about 3 ° C. in winter, and even in such a case, the heat storage material container (2) has an uneven surface as described above so that heat can be stored in the heat storage material container (2). (6) is formed, and the uneven heater (6) is provided with a heater (4) for heating to store heat. The uneven portion (6) is preferably formed so that the cord heater (4) can be spirally wound around the whole. Further, it is preferable that the heat storage material container (2) can be divided into at least two as shown in FIGS. 1 and 3 so as to be easily installed in the pipe (1).

It is effective to provide a heat insulating material layer around the heat storage layer as shown in FIG. Various materials such as polyethylene foam, urethane foam, glass wool, and rock wool can be used as the heat insulating material (5), but it is preferable that the thermal conductivity is 0.1 W / mk or less in terms of heat insulating performance. The thickness of the heat insulation layer is 2 considering the heat insulation performance and the pipe storage in the wall.
About 30 mm is desirable.

The heat storage material container (2) may be divided into two or more pieces, but two pieces are convenient for construction.
However, in any case, it is necessary to fix these plural containers (2) to each other when the pipe (1) is sandwiched. As a means therefor, the heater (4) may be wound, or a wire, a cord, a ribbon or the like different from the heater (4) may be wound. Alternatively, irregularities, fitting means for pins and holes, engaging means for hooks and steps, and the like may be appropriately provided at the mutual connecting portions of the container (2).

Further, in order to prevent the curved surface (21) of the container (2) shown in FIG. 3 from slipping, the curved surface (21) may be roughened or a small unevenness may be provided to form a pipe ( 1) The friction on the outer peripheral surface may be increased. The heater (4) may be a so-called cord heater, a ribbon heater or the like.

According to the invention of this application exemplified above, for example, it is possible to store heat in the heat storage material (3) by energizing the heater (4) and prevent freezing for a long time even when the heater (4) is turned off. it can. Since the heat storage material container (2) is formed with the unevenness (6) around which the heater (4) is wound, the construction is simple, the heat transfer efficiency is good, and the container strength is increased. Compared to a freeze prevention device that uses only a heater, there is no risk of accidents caused by energizing the heater when you are not present.

FIG. 4 shows another embodiment.
In this example, two heat storage material containers (2) are movably connected to each other at one side end (22) of their curved surfaces, and the other side end (23) is free. . The side end (23) is attached to the pipe (1) with the side end (23) open, and the container (2) is rotated at the side end (22) that is movably connected so that the pipe (1) is caught. . With such a heat storage material container (2), more simple construction is possible, and one heat storage material container (2) necessary for combination is provided.
There is no need to worry that you will not be able to install it due to loss.

Regarding the heat storage material container (2), depending on the type and amount of the heat storage material (3) housed inside, the heat storage material (3) stores heat due to expansion due to temperature change when used as a pipe cover. Leakage of the material (3) from the container (2),
Alternatively, the container (2) may be damaged. In most cases, such a concern is actually not a concern, but in the case where a complete countermeasure is taken, the expansion of the heat storage material (3) may be absorbed. For example, as shown in the perspective view of FIG. 5 and the plan view of FIG. 6, the heat storage material container is configured as a two-divided unit, and the connection side end thereof is provided with a stepped uneven portion (24) for fitting. Taking (2) as an example, the heat storage material injection port (2
5) is arranged so that an air layer exists above the container (2) when the heat storage material is filled.

FIG. 7 shows an example of the heat storage material container (2) as a cross section. However, in the heat storage material inlet port (25) at the upper part of the heat storage material container (2), the heat storage material container (2) is connected to the inlet (251). , A sealing material (252) such as an aluminum film is provided,
A cap (253) is arranged from above. Then, inside the container (2), the air layer (26) exists even when the heat storage material (3) is filled. With this structure, the sealing material (252) is peeled off after the pipe cover is constructed, the inside of the container (2) is open to the atmosphere, and the heat storage material (3) is prevented from leaking.

The sealing material (252) is for preventing leakage during transportation. Similarly, it may have a structure as shown in FIG. A retaining cap (253) having a communication port (254) to the atmosphere is provided, and a sealing material (252) is attached before construction. In the structure of FIG. 9, the ball (255) opens and closes the communication port (254) of the cap (253). That is, when the heat storage material (3) expands, the heat storage material (3) that rises through the opening of the ring (256) pushes up the ball (255) and closes the communication port (254) to the atmosphere to prevent leakage. On the other hand, at the time of contraction, the ball (255) descends and the ring (2)
56). At this time, air enters the container (2).

In any of the above cases, the heat storage material container (2) can absorb the expansion of the heat storage material (3). This effectively prevents damage to the container and leakage due to expansion of the heat storage material (3). In addition, in order to increase the strength of the container (2), as shown in FIG. 7 and FIG. 10, unevenness (27) may be provided on the bottom part thereof. Then, as shown in FIG. 10, irregularities (28) may be formed on the surface in contact with the pipe (1).

Of course, the invention of this application is not limited to the above examples. There are various possibilities in the construction of the details.

[0023]

As described in detail above, in piping for bathrooms, washbasins, etc., water in winter pipes sometimes freezes in cold regions.
By energizing the heater, heat can be stored in the heat storage material, and even if the heater is turned off, freezing can be prevented for a long time. Since the heat storage material container is formed with irregularities for winding a heater, the construction is easy, the heat transfer efficiency is good, and the container strength is increased. Compared to a freeze prevention device that uses only a heater, there is no risk of accidents caused by energizing the heater when you are not present.

By making the container itself to absorb the expansion of the heat storage material, it is possible to effectively prevent the container from being damaged and the heat storage material from leaking due to the expansion of the heat storage material due to the temperature change.

[Brief description of drawings]

FIG. 1 is a perspective view showing an embodiment of the present invention.

FIG. 2 is a cross-sectional view of a main part of FIG.

FIG. 3 is a perspective view illustrating a heat storage material container.

FIG. 4 is a perspective view showing another embodiment of the present invention.

FIG. 5 is a perspective view illustrating a heat storage material container.

FIG. 6 is a plan view corresponding to FIG.

FIG. 7 is a cross-sectional view of a container exemplifying a structure for absorbing expansion of a heat storage material.

FIG. 8 is a cross-sectional view of essential parts illustrating a structure different from that of FIG. 7.

FIG. 9 is a main-portion cross-sectional view illustrating still another structure.

FIG. 10 is a cross-sectional view showing an example of the outer shape of a container.

FIG. 11 is a cross-sectional view showing a conventional structure for preventing freezing of piping.

[Explanation of symbols]

1 piping 2 Heat storage material container 3 heat storage material 4 heater 5 insulation 6 unevenness 7 Heat storage material filling port 21 curved surface 22 Side end that is movably connected 23 Free side edge 24 unevenness 25 Heat storage material inlet 26 Air layer 27, 28 unevenness 251 inlet 252 sealing material 253 cap 254 communication port 255 balls 256 ring

─────────────────────────────────────────────────── ─── Continuation of the front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) E03C 1/02 F16L 53/00

Claims (6)

(57) [Claims] 1. A pipe cover arranged around a hot water supply pipe or a water supply pipe, having a curved surface along the circumferential surface of the pipe for inserting the pipe from both sides, and having a curved surface inside the pipe cover. phase
Change temperature comprises a plurality of thermal storage material containers heat storage material is housed is -2 ° C. to 10 ° C. approximately, and characterized in that the set around heater on the outer periphery of the heat storage material container sandwich the piping Plumbing cover. 2. A heat insulating material layer is provided on the outer periphery of the heater.
And tube cover according to claim 1 and. 3. The heat storage material container is provided with irregularities on its outer peripheral surface.
The pipe cover according to claim 1 , wherein the heater is wound along the unevenness . 4. A heater wound spirally on the unevenness of the outer peripheral surface.
The pipe cover according to claim 3 , which is provided so as to be opened . 5. The pipe is sandwiched by the two heat storage material containers.
The pipe cover according to any one of claims 1 to 4,
The two heat storage material containers are placed at one end of each curved surface.
A pipe cover that is movably connected to each other . 6. The pipe cover according to any one of claims 1 to 5.
The heat storage material container has a heat storage material injection port at the top.
And inside the upper air layer after storing the heat storage material
A pipe cover provided with .