JP2018172885A - Method of installing strainer for removing tap water foreign matter and method of working water pipe arrangement - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of installing a strainer for removing tap water foreign matter and a method of working water pipe arrangement, the methods being capable of simply and easily realizing: removal of minute foreign matter; large reduction of a cleaning water amount for pipe arrangement; and much shortening of water outage, pertaining water outage and water supply by conventional pipe arrangement works.SOLUTION: A method of installing a strainer for removing tap water foreign matter of this invention includes installing the strainer for removing tap water foreign matter adjacently to a water meter installed in a frame body, part of which is exposed to a ground surface, inside a water pipe arrangement connected to the water meter. The strainer includes a cylindrical, bottomed screen and a flange part disposed at an edge of the screen.SELECTED DRAWING: Figure 1A

Description

  The present invention relates to a strainer installation method for removing foreign water from tap water and a construction method for water pipes.

  Conventionally, various works such as repair or replacement of water pipes have been carried out along with system change or aging in water operation for maintenance of water pipes. The water will be cut off for several hours to several days, and water will be passed again after the construction is completed. However, when water is passed, foreign matter such as rust, sand, and sealing material in the pipe may flow through the water pipe, and colored water or turbid water may be discharged from the water tap. In order to avoid such a situation, usually after the construction is completed and before passing water, a considerable amount of water is discharged as washing water at a predetermined site until the colored water or cloudy water disappears for a long time. Then, the pipe cleaning work is performed to wash away foreign substances in the pipe. However, in reality, it is difficult to completely block the supply of colored or turbid water to ordinary households and stores, and it is necessary for the user to stop using the water supply for a long time. This is the current situation.

Under such circumstances, not only ordinary households but also food manufacturers who use water as a raw material are strongly required to supply clean water promptly after a water outage or water flow accompanying waterworks. Yes.
The present application has been made to solve the above-mentioned problems, and is provided with a strainer installation method and tap water pipe for removing foreign matter from tap water, which enables removal of fine foreign matter after water cut-off and water flow accompanying waterworks work. The purpose is to provide a construction method.

The present application provides the following inventions.
(1) A strainer for removing foreign matter from tap water having a cylindrical screen with a bottom and a flange disposed at one end of the screen is adjacent to a water meter housed in a housing partly exposed on the ground surface. And the installation method of the strainer for the foreign material removal of tap water including installing in the water pipe connected to the said water meter.
(2) The strainer installation method as described above, wherein the screen has a two-layer structure including an outer net and an inner net.
(3) The strainer installation method as described above, wherein an opening diameter in the inner net is smaller than an opening diameter in the outer net.
(4) The strainer installation method according to the above, wherein the strainer is sandwiched between the water meter and the water pipe, and the strainer is installed so that the screen is accommodated in the water pipe.
(5) The strainer installation method as described above, wherein the strainer is installed on the downstream side of the water meter.
(6) After running the tap water due to the waterworks, execute the strainer installation method described above,
After the water works are completed, tap water is passed through the strainer.
A water pipe construction method including removing the strainer after 1 day to 1 week has passed after passing water.

  According to the installation method of the strainer for removing the foreign matter of tap water and the construction method of the water pipe according to the present disclosure, it is possible to remove fine foreign matters after the water is cut off and the water is passed through the waterworks.

It is a schematic sectional drawing which shows an example of the strainer used with the installation method of the strainer for the foreign material removal of tap water of this application. It is a schematic sectional drawing which shows another example of the strainer used with the installation method of the strainer for the foreign material removal of the tap water of this application. It is a schematic diagram of water supply piping etc. for demonstrating the installation method of the strainer for the foreign material removal of the tap water of this application. It is an enlarged view of the water meter vicinity in FIG. 2A. It is an enlarged view of water supply piping which shows the installation site | part of the strainer in FIG. 2B.

[Strainer installation method]
In the present disclosure, a strainer for removing foreign matter from tap water (hereinafter sometimes simply referred to as “strainer”) is installed in a water pipe connected to the water meter adjacent to the water meter. The process of carrying out is included.
The strainer used in the strainer installation method of the present disclosure is capable of removing foreign substances that cause turbid water generated during waterworks, and does not impede the flow rate and flow velocity of water in water supply piping while supplying water. In order to attach and detach before and after waterworks, those that satisfy all of the requirements for easy and simple installation in a site that can be attached and detached in a short time are mentioned. Here, the water pipe refers to all water pipes including straight pipes, flexible pipes, universal joints for meters, and the like. The waterworks include water pipe replacement work, water supply replacement work, valve replacement work, and system maintenance work by opening and closing valves. Easy attachment and detachment means that it can be installed in the water pipe and removed without digging the ground and destroying the walls or floors of the building.
As a result, it is possible to easily and easily realize a reduction in the amount of pipe cleaning water and a shortening of the water stoppage time due to the water breakage and water flow in the conventional pipe work, and the work efficiency can be greatly improved.

  For example, as shown in FIGS. 1A and 1B, the strainers 10 </ b> A and 10 </ b> B include bottomed cylindrical screens 1 and 11, and flanges 2 and 12 disposed at one ends 1 a and 11 a of the screens 1 and 11. Those are preferred. By adopting such a configuration, it can be fixed at a predetermined position in the water pipe, can withstand the water pressure loaded for the supply of tap water, and remove foreign substances without impeding water flow. It can be executed reliably.

  Various materials can be used for the strainer. For example, as metals, iron, copper, aluminum and the like are common, but alloys include duralumin, stainless steel, brass and the like. In plastics, thermoplastic resins include general-purpose plastics, general-purpose engineering plastics, and super-engineering plastics. General-purpose plastics include polypropylene, polyethylene, polyvinyl chloride, polyvinylidene chloride, ethylene vinyl acetate copolymer resin, polymethyl methacrylate, styrene butadiene acrylonitrile copolymer resin, and polystyrene. General-purpose engineering plastics include polyacetal, polyamide, polycarbonate, polybutylene terephthalate, polyethylene terephthalate, modified polyphenylene ether, ultrahigh molecular weight polyethylene, syndiotactic polystyrene, and alloy resins thereof. Examples of super engineering plastics include tetramethylpentene, polyether ether ketone, amorphous polyarylate, liquid crystal polymer, polysulfone, polyether sulfone, polyphenylene sulfide, polyimide, polyether imide, aromatic nylon resin, and fluororesin. Examples of the thermosetting resin include phenol resin, urea resin, melamine resin, epoxy resin, unsaturated polyester resin, silicon resin, polyurethane resin, and the like. Examples of natural materials include cotton and hemp. Examples of the sintered body include a sintered body of metal such as ceramics.

  In the strainer, all of the constituent members such as the screen, the collar, the reinforcing member, and the cap may be made of the same material or different materials. For example, two or more metals, two or more plastics, and in some cases, both metal and plastic materials may be used. These can be selected in consideration of a combination excellent in strainer manufacturing cost and durability. For example, the screen 1 of the strainer in FIG. 1A may be made of metal, and the flange portion 2, the reinforcing member 3, and the cap 4 may be made of plastic.

The bottomed cylindrical screens 1 and 11 preferably extend straight in the direction of water flow, and the cross-sectional shape perpendicular to the direction of water flow is preferably, for example, circular or substantially circular. The size of the cross section preferably has, for example, an outer diameter D slightly smaller than the inner diameter of the water pipe to be installed. For example, 30 mm or less is mentioned, 25 mm or less, 22.5 mm or less, 19 mm or less, or 13 mm or less is preferable. As shown in FIG. 1A, the cylinder of the screen 1 may have a constant diameter in the extending direction, or as shown in FIG. 1B, the diameter varies from one end 11a to the other end 11b. The diameter may be increased or decreased. The variation in this case includes a variation in diameter of about 10 to 20% over the entire length. The total length L of the cylindrical strainers 1 and 11a is preferably long as long as it can be installed, attached, and removed from the water pipe. For example, 200 mm or less is mentioned, 100 mm or less is preferable. In other words, those having a filtration area of 2000 mm ² or more are mentioned, and those having 2200 mm ² or more are preferred. The upper limit is 5000 mm ² or less.

  The screens 1 and 11 may have a single layer structure or a multilayer structure of two or more layers. Of these, a two-layer structure is preferable. By adopting a multilayer structure, it is possible to easily adjust the balance between the filtration ability and the water passage ability while securing the strength of the screen. The size of the opening of the screen can be adjusted as appropriate depending on the single layer or multilayer structure, but it should be a size that removes foreign substances expected to be generated in waterworks and does not hinder the flow rate and flow rate. is necessary. For example, 10-1000 mesh is mentioned. In the case of a multilayer structure, it is preferable that the opening of the inner screen is small and the opening of the outer screen is large. By setting the size of such openings, it is possible to further easily balance the filtration ability and the water passage ability. For example, the opening of the inner screen is 100 to 1000 mesh and the opening of the outer screen is 10 to 200 mesh. The opening of the inner screen is 200 to 1000 mesh and the opening of the outer screen is preferably 20 to 100 mesh. .

  For example, when using a wire-like or fibrous material such as SUS, the wire diameter is 1 μm to 1 mm, preferably 10 to 500 μm, and preferably 20 to 300 μm in order to obtain the above-described opening. Those are more preferred. By using such a material, it is possible to clean and reuse after removing the strainer.

  The flanges 2, 12 arranged at the one ends 1 a, 11 a of the bottomed cylindrical screens 1, 11 are larger than the outer shape of the cylinders of the screens 1, 11 and protrude perpendicularly or substantially perpendicularly to the water flow direction. The flanges 2 and 12 only need to be arranged on the whole or a part of the outer periphery of the ends 1a and 11a of the cylinder, and by being arranged on the entire outer periphery, the strength of the cylindrical screens 1 and 11 is further increased. It can be ensured and the deformation of the cylindrical screens 1 and 11 can be prevented. Moreover, it contributes to fixing to the desired position in water piping firmly. The diameters Dx of the flanges 2 and 12 can be appropriately adjusted according to the diameter of the water pipes on which the strainers 1 and 11 are installed, and are preferably larger than the inner diameter of the water pipes to be installed. . Moreover, 40 mm or less is mentioned, 35 mm, 30 mm, or 23 mm is preferable. As for thickness T of a collar part, 0.5 mm or more is mentioned, for example, and 1 mm or more is preferred. The upper limit of thickness is 3 mm or less. Examples of the material constituting the collar include the same materials as the material constituting the screen. In particular, it is preferable to form the collar with the same material as the screen. This is for ease of manufacture.

Reinforcing members 3 and 13 are attached to the flange portions 2 and 12 along the outer periphery or inner periphery of the cylinder of the screen 1 in order to reinforce the connecting portion between the flange portions 2 and 12 and the screens 1 and 11. Also good. The length Lx of the reinforcing members 3 and 13 is, for example, several mm to 10 mm, and preferably 3 to 8 mm. By providing the reinforcing members 3 and 13, it is possible to maintain the filtering ability and the water passage ability while minimizing the clogging of the mesh or the deformation of the screen while realizing the addition of an appropriate strength.
The bottomed cylindrical screens 1 and 11 may be bottomed by arranging parts such as caps 4 and 14 at the other ends 1b and 11b different from the ends 1a and 11a where the flanges 2 and 12 are disposed. In addition, the other end of the screen may be folded to have a bottom. Among these, from the viewpoint of pressure resistance, it is preferable to arrange a part such as a cap to have a bottom.

  The strainer in the present disclosure can be manufactured by a method known in the art or a combination of these methods. When the material constituting the strainer is a metal, as a method of processing the metal, a method of forging, pressing, powder metallurgy, welding, casting, in some cases using an adhesive, making use of the characteristics of the metal Etc. In the case of plastic, a mold imitating a molded product or imitating a molded product part is created and injection molded, the molded product part is bonded with an adhesive, etc. Examples include a joining method. Note that, as described above, when the filter portion of the strainer in FIG. 1A is made of metal and the ridge and the cap portion are made of plastic, they may be integrally formed by, for example, injection molding.

The strainer in the present disclosure preferably has predetermined characteristics in, for example, a foreign matter (iron rust etc.) tolerance test (flow rate test), a pressure test, a leaching test, and the like. Specifically, when a strainer is installed in a water pipe connected to a water meter that is actually installed and water is passed at normal water pressure, the flow rate is compared to the flow rate when no strainer is installed. The variation is preferably within 7%, more preferably within 5%. In other words, those within 3 L / min are preferred, and those within 2 L / min are more preferred. Moreover, it is preferable that the fluctuation of the flow rate when the iron powder (particle size: 0.1 to 1 mm) 1.0 g is introduced from the middle of the water pipe and supplemented by the strainer is within 45%, preferably within 40% Is more preferable. The amount of fluctuation in flow rate when iron powder (particle size: 0.1 to 1 mm) 2.0 g is introduced from the middle of the water pipe and supplemented with a strainer is preferably 50% or less, and 45% or less. Those are more preferred. Furthermore, even when a 1.75 MPa water pressure is applied to the strainer for 1 minute, it is preferable to withstand the water pressure without deformation. In addition, those that pass the leaching test according to JWWA (Japan Waterworks Association) Z 108: 2004 are preferred.
By providing such characteristics, as described above, foreign substances that cause turbid water generated in waterworks can be removed, and the flow rate and flow rate of water in waterworks pipes are not hindered, and conventional plumbing works. Therefore, it is possible to easily and easily realize a reduction in the amount of pipe cleaning water and a shortening of the water stoppage time due to the water stoppage and water flow, and it is possible to greatly improve the work efficiency.

In the strainer installation method of the present application, the strainer described above is detachably installed in a water pipe connected to the water meter adjacent to the water meter.
For example, as shown in FIGS. 2A, 2 </ b> B, and 2 </ b> C, the water meter 20 is usually housed in the housing 22 together with the auxiliary water stopcock 21. In order to enable periodic meter reading of the water meter, a part of the housing, for example, the lid 23 is exposed to the ground surface. Thereby, the water meter 20 and the auxiliary water stopcock 21 can be easily touched without digging up the ground and destroying the walls or floors of the building. Further, between the water meter 20 and the auxiliary water faucet 21, on the upstream side of the auxiliary water faucet 21 and on the downstream side of the water meter 20, via water supply joints 24a, 24b, 24c, 24d, etc., respectively, Pipe universal joints 25a and 25c are connected. Therefore, removal of these joints 24a, 24b, 24c, 24d, etc., and connection or removal of the water pipe universal joints 25a, 25c can be easily performed. As a result, the strainer 10 can be easily and quickly installed in the water pipe universal joint 25c connected to the water meter 20 adjacent to the water meter 20, and can be easily and quickly removed at any time.

  The water meter may be any water meter conventionally used. For example, a JWWA standard water meter or a JIS B 8570-2: 2013 standard water meter may be used. The water meter has an inlet and a spout on the upstream side (water supply pipe side) and downstream side (water supply equipment (faucet, etc.) side of ordinary houses and condominiums). As long as it is adjacent to the water meter, it may be installed on either the inlet side (in FIG. 2B, the joint 24b side) or the outlet side (in FIG. 2B, the joint 24c side). Especially, it is preferable to install in the downstream (FIG. 2B, coupling 24c side). As long as the strainer is installed in a water pipe (including various joints) connected to a water meter (that is, an inlet or a spout), the strainer may be in contact with or separated from the water meter. . For example, the water meter is preferably installed so that its flange is sandwiched between the end face of the inlet or outlet of the water meter and the joint connected to the water pipe, and the water directly discharged from the strainer is More preferably, a strainer is installed so that the water poured into the water meter or the water dispensed from the water meter directly enters the strainer. In particular, since the strainer is liquid-tightly installed in the water pipe so that the water poured out from the water meter directly enters the strainer, the strainer can be applied in a mode that easily ensures water resistance. Further water resistance can be ensured. Further, the foreign matter to be removed can be reliably captured in the strainer. In other words, the strainer is preferably installed downstream of the water meter.

[How to install water pipes]
In the construction method of the water pipe, as shown in FIG. 2A, the water supply tool 30 including the water stop cock 30a on the residential land side H or the water supply work on the upstream side R of the water supply pipe 31 is usually followed by a water cutoff. Is done. Then, in the water cut-off state, the water pipe is newly installed / updated to newly introduce the water pipe 40 or to replace the old water pipe, the cleaning work to wash the inner surface of the water pipe to remove iron rust, etc., from the water pipe or the water pipe Various works such as water leakage repair work to repair water leakage and water pipe installation work to install or add new water pipes.
As described above, the strainer 10 is installed in the water pipe universal joint 25c adjacent to the water meter 20 as described above in parallel with or before and after the water supply work.
After the installation of the strainer and various constructions, tap water is passed through the strainer. Thus, by installing the strainer, the piping cleaning process can be simplified. Thereby, while being able to reduce the quantity of the water used for washing | cleaning of piping significantly, the time which the washing | cleaning requires, ie, the water cutoff time, can be shortened significantly. Moreover, even if foreign matter resulting from construction is mixed in tap water after various constructions are completed, the foreign matter can be reliably removed by the strainer without hindering the water flow.

In the construction method for water pipes in the present application, it is one of important processes to remove the strainer after 1 day to 1 week has passed since the water flow. In other words, once the plumbing work is completed and water is once passed, water is not normally shut off unless water works are performed again. After a week, the water is temporarily stopped for about several minutes to ten and several minutes, and the strainer is removed from the water pipe during that time. By removing the strainer as described above, it is possible to reliably avoid the temporary contamination due to the waterworks and to supply clean water promptly after the waterworks are completed. In addition, even if foreign matter accumulates in the strainer, since the strainer itself is quickly removed together with the foreign matter after 1 day to 1 week, it is possible to avoid obstruction of the flow rate and flow velocity in the water pipe. Become.
As shown in FIGS. 2A and 2C, for example, as shown in FIGS. 2A and 2C, the temporary water stop when the strainer is removed is usually an auxiliary water stop cock that is accommodated together with the water meter 20 in a housing 22 partially exposed on the ground surface. 21 or, as shown in FIG. 2C, can be performed by a stop cock 30a that is disposed upstream of the housing 22 and can be easily operated from the ground surface. By using such a facility in the casing 22 exposed on the ground surface or the stop cock 30a, water stop and strainer removal for removing the strainer can be executed simply and quickly. The effect obtained can be exhibited extremely advantageously.

Below, the installation method of the strainer of this application, etc. are demonstrated in detail.
In the water meter 20 shown in FIGS. 2A and 2B, three types of water injection / outlet diameters of 13 mm, 20 mm, and 25 mm are prepared, and the auxiliary water stop valve 21, the joints 24a to 24d, and the water pipe universal joints 25a and 25c are provided. Prepared together with the housing 22. Moreover, the strainer of the size according to each water meter was prepared, and each strainer was installed in the water piping connected to the water meter adjacent to the water meter.
Thereafter, water was passed through the strainer, and a flow rate test, a pressure resistance test, and a leaching test were performed when the strainer was installed.
The strainers used in these tests and various test results are as shown in Table 1 below.
In the running water test, the flow rate at a normal water pressure (0.5 MPa) was measured from a general series of water distribution pipes to the water supply pipe, as schematically shown in FIGS. 2A and 2B.
In the water resistance test, a water pressure of 1.75 MPa was applied for 1 minute, and the strainer was visually observed for deformation.
The leaching test was conducted according to JWWA (Japan Water Works Association) Z 108: 2004mp 7.2 part test or material test and passed.

  According to the method for installing a strainer for removing foreign substances in tap water and the method for constructing water pipes according to the present application, it is possible to eliminate the water-blowing and water-washing steps of conventional piping work and to remove fine foreign substances from tap water. It has been confirmed that it is possible to easily and easily achieve the above, and it is possible to reduce the amount of pipe cleaning water, shorten the water shut-off time, and significantly improve the work efficiency.

In the strainer installation method described above, plastic strainers D to F shown in Table 2 below may be used instead of the strainers A to C.

DESCRIPTION OF SYMBOLS 1, 11: Screen 1a, 11a: One end 1b, 11b: The other end part 2, 12: The collar part 3, 13: Reinforcement member 4, 14: Cap 10A, 10B: Strainer 20: Water meter 21: Auxiliary stop cock 22 : Housing 23: Lids 24a, 24b, 24c, 24d: Joints 25a, 25c: Water pipe universal joint 30: Water supply tool 30a: Stop cock 31: Water pipe 40: Water distribution pipe H: Housing land side R: Upstream side L : Full length T of strainer: Thickness D of collar part D: Diameter Dx of screen: Diameter Lx of collar part: Length of reinforcing member

Claims (6)

  A screen with a bottomed cylindrical shape, a strainer for removing foreign matter in tap water having a collar portion arranged at one end of the screen, adjacent to a water meter housed in a housing partly exposed on the ground surface, An installation method of a strainer for removing foreign matter from tap water, including installation in a water pipe connected to the water meter.   The strainer installation method according to claim 1, wherein the screen has a two-layer structure including an outer net and an inner net.   The strainer installation method according to claim 2, wherein an opening diameter in the inner net is smaller than an opening diameter in the outer net.   The strainer installation method according to any one of claims 1 to 3, wherein the flange is sandwiched between the water meter and the water pipe, and the strainer is installed so that the screen is accommodated in the water pipe.   The strainer installation method according to any one of claims 1 to 4, wherein the strainer is installed downstream of the water meter. After the water cut-off of the tap water associated with the waterworks construction, the strainer installation method according to any one of claims 1 to 5 is executed,
After the water works are completed, tap water is passed through the strainer.
A water pipe construction method including removing the strainer after 1 day to 1 week has passed after passing water.