JP5835728B2 - Scale production inhibitor and scale production prevention method - Google Patents

Description

  The present invention relates to a scale production inhibitor and a scale production prevention method, which have a sustained release characteristic of a scale prevention component as well as safety, and can efficiently prevent scale in water facilities such as kitchen equipment and piping.

  Living water such as tap water has hard components such as calcium, and scales formed by precipitation of hard components, especially scales mainly composed of calcium, in water facilities such as kitchens and pipes. Cannot be avoided. In particular, in kitchen equipment such as a steam convection oven and a dishwasher, there is a problem that scale generation due to tap water inevitably occurs in a tank that stores or evaporates tap water. Once the scale is generated in the equipment and piping, the scale grows like a stalactite, which may cause malfunction of the equipment, failure, clogging of the piping and hotbed of various bacteria.

  In view of this, a technique for preventing the occurrence of scales in water facilities has been developed. For example, Patent Document 1 reports that by admixing and dispersing carbon dioxide gas in hot spring water, it is possible to prevent adhesion of scales formed on the inner wall of a hot water pipe. However, in patent document 1, since generation | occurrence | production of the scale resulting from hot spring water is prevented and mixing of a carbon dioxide gas is essential, the supply apparatus of a carbon dioxide gas is required. On the other hand, since a simple method is required to prevent the generation of scale due to tap water around kitchens, etc., installation of a carbon dioxide gas supply device is unsuitable. Since it is different from hot spring water containing a relatively large amount of hard component in terms of generation, the technique of Patent Document 1 is not applicable to prevention of scale generation from domestic water such as tap water.

  Patent Document 2 reports that the scale of toilet water pipes can be prevented by adding an acidic substance to urine or mixed waste water of urine and washing water to maintain the pH at 5 to 7.5. Has been. Furthermore, Patent Document 3 reports that a molded article containing a solid acid and a base and / or additive is effective in preventing the scale of a toilet drain pipe. However, in the techniques of Patent Documents 2 and 3, the urinary stone is prevented from adhering due to a mixture of calcium-based compounds and organic substances generated by decomposition of urine, and a very small amount contained in domestic water such as tap water. It does not disclose a technique for preventing the generation of scale derived from hard components. Furthermore, since the technique of patent document 2 and 3 aims at preventing the scale of the drain pipe of a toilet, it does not consider at all about the safety | security when it enters into a person's eyes and mouth accidentally. In addition, in kitchen equipment and its piping, a large amount of water is not drained at a time in a short time like a toilet drain pipe, but water is stored or drained for a relatively long time. Although the components are required to be released slowly, Patent Documents 2 and 3 do not disclose any technical means for releasing the scale-inhibiting components in this way. Therefore, Patent Documents 2 and 3 are not techniques that can be diverted to prevent scale generated in water facilities such as a kitchen and its piping.

JP 2009-39667 A Japanese Patent Laid-Open No. 10-1995 JP-A-8-206688

  An object of the present invention is to provide a technique effective in preventing scale from being generated from domestic water such as tap water in kitchen equipment and plumbing equipment such as piping. More specifically, the present invention has a sustained release characteristic of a scale generation preventing component together with safety, and can efficiently prevent scale generated from domestic water such as tap water in kitchen equipment and plumbing equipment such as piping. The purpose is to provide.

  The present inventor conducted intensive studies to solve the above-mentioned problems. As a result, sorbic acid, which was not conventionally known as a scale formation preventing component, was selected from a variety of acidic components, and this was used as a scale formation inhibitor. It has been found that by using it as an active ingredient, scales generated from domestic water such as tap water can be efficiently prevented in watering equipment such as kitchen equipment and piping. In addition, sorbic acid is a substance that is difficult to dissolve in water and has a sustained release property. By making this into a solid molded product, the sustained release property to water can be dramatically improved and the action of preventing scale formation can be sustained. I also found out that I can demonstrate it. Furthermore, sorbic acid is a component that can also be used as a food additive, and is superior to the acidic component used in conventional scale formation inhibitors in terms of safety.

The present invention has been completed by further studies based on this finding.
That is, this invention provides the invention of the aspect hung up below.
Item 1. A scale formation inhibitor comprising sorbic acid.
Item 2. Item 2. The scale formation inhibitor according to Item 1, wherein the blending ratio of sorbic acid is 40 to 100% by weight.
Item 3. Item 3. The scale formation inhibitor according to Item 1 or 2, which is a molded product obtained by tableting and / or granulation molding.
Item 4. Item 4. The scale formation inhibitor according to Item 3, wherein the weight per molded body is 0.1 to 500 g.
Item 5. Item 5. The scale formation inhibitor according to any one of Items 1 to 4, which is used to prevent scale formation in kitchen equipment or piping thereof.
Item 6. Item 6. The scale formation inhibitor according to Item 5, wherein the kitchen device is a steam convection oven or a dishwasher.
Item 7. Item 7. The scale formation inhibitor according to any one of Items 1 to 6, which is used to prevent the production of scale generated from tap water.
Item 8. A filling tank filled with the scale formation inhibitor according to any one of Items 1 to 7, wherein the filling tank is provided with an inlet for allowing water to flow into the filling tank, and water flowing into the filling tank. A scale generation preventing device provided with an outlet for flowing out into a water facility.
Item 9. Item 8. A method for preventing scale formation in a water supply facility, wherein the scale formation inhibitor according to any one of Items 1 to 7 is contacted with water.

  The scale formation inhibitor of the present invention can efficiently prevent scale generation from domestic water such as tap water in kitchen equipment and plumbing equipment such as piping, and can prevent malfunctions and malfunctions due to the scale of the equipment. Furthermore, since the scale formation inhibitor of the present invention can release sorbic acid acting as a scale formation prevention component over a long period of time and can be used over a long period of time, the work burden such as installation of the scale formation inhibitor is reduced, and maintenance costs are reduced. Can be reduced. Furthermore, since the scale formation inhibitor of the present invention is used in a range in which a small amount of sorbic acid, which is also used as a food additive, is dissolved in water to ensure sufficient safety, it can touch the human body. Even if it accidentally enters the mouth, it can be used with high safety without causing major damage. In addition, since sorbic acid also has antiseptic action, the scale formation inhibitor of the present invention does not cause spoilage due to various bacteria like other organic acids even if it stays in water for a long time, A hygienic state can also be maintained.

  Conventionally, in the steam generation tank of steam convection oven and its piping, it has been a problem that tap water is concentrated and scale is likely to occur, and it has not been solved for many years. Since it is possible to effectively prevent scale formation in the steam generation tank of the steam convection oven and its piping with high safety, it can be put to practical use as a scale formation inhibitor for the steam convection oven.

In Example 1, it is a figure which shows the result of having added each acid with respect to the water of hardness 300mg / L, and measuring the production | generation suppression rate of the precipitate after concentration. In Example 2, it is a figure which shows the result of having added each acid with respect to the water of hardness 150mg / L, and measuring the production | generation suppression rate of the precipitate after concentration. In Example 4, it is a figure which shows the result of having measured the pH after water-flowing by allowing tap water to flow with respect to powdered sorbic acid, a 300 mg tablet of sorbic acid, or a 600 mg tablet of sorbic acid. In Example 5, it is a figure which shows the result of having made water flow through a tap water with respect to a sorbic acid 600 mg tablet or a sorbic acid 2800 mg tablet, and measuring the pH after water passage with time. In Example 6, it is a figure which shows the result of having made water flow with respect to a sorbic acid (pigmented) 2800 mg tablet, and measuring the pH after water flow over time. In Example 7, it is a figure which shows the result of having made the sorbic acid 150g molded object pass water and measuring the pH after water-flowing over time.

  The scale formation inhibitor of the present invention is characterized by containing sorbic acid.

Sorbic acid is an unsaturated monocarboxylic acid represented by the general formula CH ₃ (CH═CH) ₂ COOH, and is a known compound that is also used as a food additive. Sorbic acid is solid at normal temperature, and the scale formation inhibitor of the present invention is provided as a solid agent.

  In the scale formation inhibitor of the present invention, the blending ratio of sorbic acid is appropriately set according to the amount of the agent used in the pipe, the flow rate or flow rate of water in the pipe used, Examples are 40 to 100% by weight, preferably 60 to 100% by weight, more preferably 80 to 100% by weight, more preferably 90 to 100% by weight, and particularly preferably 100% by weight based on the total weight of the agent.

  The scale formation inhibitor of the present invention is preferably composed of 100% by weight of sorbic acid, but may contain other additives as necessary. Such additives include surfactants, preservatives, bactericides, corrosion inhibitors, chelating agents, colorants (pigments), fragrances, dissolution rate modifiers, excipients, lubricants, disintegrants, disinfectants. Examples include odorants and antifoaming agents. For example, by adding a colorant to prevent scale formation containing sorbic acid, when used in a water supply facility described later, the colorant is eluted, so that the replacement time of the scale formation inhibitor (of the scale formation inhibitor) It is possible to visually determine when the effect is not achieved.

  The scale formation inhibitor of the present invention is not particularly limited as long as it is provided in a solid form. The scale formation inhibitor of the present invention may be in the form of a powder, but in order to enhance the sustained release characteristics of sorbic acid into water and continuously exert the effect of preventing scale formation, tableting and / or It is desirable that the molded body is granulated. Specific examples of such a molded body include a spherical shape, a cylindrical shape, a disc shape, a cubic shape, a rectangular parallelepiped shape, a conical shape, a pyramid shape, and a lump shape. Further, the size of these molded products is appropriately set according to the blending ratio of sorbic acid contained in the scale formation inhibitor, the shape of the molded product, etc. 500g is preferable, 0.3-300g is more preferable, 0.5-150g is still more preferable, 0.5-80g or 0.5-30g is especially preferable. By preparing a molded body having such a weight, it is possible to more efficiently release sorbic acid into water.

  The scale formation inhibitor of the present invention is prepared by a method of tableting and / or granulating and molding into a desired shape after mixing each compounding component, and pressure molding.

  The tableting molding will be described. About 200-600 mg tablets (for example, 300 mg tablets and 600 mg tablets), sorbic acid powder is compressed by a tableting machine (for example, rotary tableting machine collect 24 manufactured by Kikusui Seisakusho Co., Ltd.) with a diameter of about 10 to 20 mm (for example, a diameter of 10 mm). ) Using a mortar and scissors, and adjusted to a tablet of the desired weight, and tableted with a tableting pressure of about 0.1 to 1.5 t (for example, 1.5 t) to produce. Can do. Moreover, about 1000-3000 mg tablets (for example, 2800 mg tablets), sorbic acid powder is about 10 to 100 mm in diameter (for example, 20 mm in diameter) with a tableting machine (for example, a rotary tableting machine collect manufactured by Kikusui Seisakusho). Using a mortar and scissors, it can be adjusted to a tablet with the desired weight, and the tableting pressure can be adjusted to a thickness of about 3 to 10 mm (for example, 7.7 mm), and tableting can be performed. it can.

  The granulation molding will be described. Raw material powder (sorbic acid powder) is put into a rotating rotating pan, granulated while rolling the granular material while adding a binder, and the raw material powder is dissolved in a liquid and sprayed after adding a binder. In addition, by spraying hot air to this, the sprayed product instantly evaporates the liquid and the powder left by evaporation of the spray solution becomes a spherical granulated product, in addition to fluidized bed granulation A granulated molded product can be obtained by various granulation methods such as a method, agitation granulation method, and a granulation method using a roller press.

The pressure molding will be described. A press-molded product can be obtained by cold water pressure pressurization or press-molding with a mold. For example, pressing at a pressure 100 to 1000 / cm ² approximately at the sorbic acid powder 150g Kiyoshi isostatic pressing apparatus (e.g., Mitsubishi Heavy Industries Ltd. cold HazamaKiyoshi isostatic pressing apparatus MCT-100) (e.g., 1000 kg / cm ²⁾ It can be molded and manufactured.

  The scale production inhibitor of the present invention is used for the purpose of preventing scale from being produced in kitchen equipment (including household kitchen equipment), bathrooms, toilets, and water facilities such as these pipes. . In particular, kitchen equipment, bathrooms, and watering equipment such as these pipes, especially kitchen equipment and its pipes, have water flowing over a long period of time, and it is important to exert a scale generation preventing effect continuously. Therefore, it is suitable as an application target of the scale formation inhibitor of the present invention. In particular, the steam convection oven is a suitable kitchen device to be applied, and according to the scale generation inhibitor of the present invention, scale generation in the steam generation tank of the steam convection oven and its piping can be efficiently prevented. . A dishwasher is also a suitable kitchen device to be applied, and the scale generation inhibitor of the present invention makes it possible to efficiently generate scale in a dishwasher washing tank, wash water storage tank, and pipes for these. Can be prevented.

  Specific examples of the water to which the scale production inhibitor of the present invention is applied, that is, water that prevents scale production, include water for domestic use such as tap water, ground water, and mineral water. It is water. Moreover, the water which flows in the above-mentioned water supply equipment is made into object.

  In the scale formation inhibitor of the present invention, the amount of water to be treated varies depending on the flow rate of water, the hardness of the water, etc., but usually when treating tap water, the scale production inhibitor of the present invention is used. About 0.5 to 50 L, preferably about 5 to 40 L, and more preferably about 10 to 35 L of water can be treated per 1 g of sorbic acid contained.

  The amount of the scale formation inhibitor of the present invention is appropriately set according to the time of contact with water, the flow rate of water, the shape of the agent, etc. The pH of water after contact with the agent is adjusted. The amount can be adjusted to 4 to 7, preferably 5 to 6.8, and more preferably 5.5 to 6.5. That is, by contacting (or dispersing or dissolving) the scale formation inhibitor of the present invention with the water of the target water facility, the pH range of the water after contact is 4 to 7 (preferably 5 to 6). .8, and more preferably 5.5 to 6.5). In this way, the scale can be prevented from being generated by adjusting the pH of the water in the target water supply facility to the above range.

  The method for using the scale formation inhibitor of the present invention is not particularly limited as long as it is installed and used so as to come into contact with water in which prevention of scale formation is desired. For example, it is desirable to install the scale formation inhibitor of the present invention in water pipes, in pipes connecting water faucets and water facilities, in water facilities, etc. Also good. In order to efficiently prevent the generation of scale, the filling tank containing the scale formation inhibitor of the present invention in the water pipe, in the pipe connecting the water faucet and the water equipment, or in the water equipment pipe It is desirable to install a scale generation prevention device configured to allow water to pass through the filling tank so that water can come into contact with the scale formation inhibitor in the filling tank. As such a scale formation prevention device, it is provided with a filling tank filled with a scale production inhibitor, and the filling tank is provided with an inlet for allowing water to flow into the filling tank and water flowing into the filling tank. The structure provided with the outflow port for flowing out to the water supply equipment is illustrated suitably. In the scale generation prevention device, water inlet filters and outlets provided in the filling tank are provided with water permeable filters (for example, non-woven fabric, etc.) so that the scale production inhibitor does not flow out of the filling tank. Is desirable. In addition, the filling tank in the scale production prevention device can be removed from the installation location or scaled in the filling tank so that the scale production prevention agent can be replenished again when the scale production prevention agent decreases or disappears due to use. It is desirable to be configured to be able to replenish the production inhibitor.

  EXAMPLES The present invention will be described in detail below based on examples, but the present invention is not limited to these examples.

Example 1: Evaluation of Scale Generation Inhibiting Action-1
The pH of water (drinking water) having a hardness of 300 mg / L was adjusted to 6.5 using sorbic acid, citric acid, acrylic acid, or sodium hydrogen sulfate. Next, 2000 mL of pH 6.5 water to which each acid was added was heated on an electric stove and concentrated to 100 mL. Subsequently, the precipitate of the hardness component was filtered using a membrane filter in heat-concentrated water, and then dried, and the weight of the precipitate was measured. Further, as a blank, without adding acid, 2000 mL of water (drinking water) having a hardness of 300 mg / L was heated on an electric stove and concentrated to 100 mL, and the weight of the precipitate was measured in the same manner as described above. . Subsequently, the suppression rate of the precipitate when each acid was added was calculated according to the following formula.

  The obtained results are shown in FIG. From this result, it is possible to suppress the formation of remarkably precipitates only when sorbic acid is used, and when other acids are used, even when the precipitation inhibition rate is the highest, it is less than 40%. It was. The water used in this test (hardness 300 mg / L) is assumed to be tap water with high hardness among tap waters used as domestic water in various parts of the world, and is a suitable model test for inhibiting scale formation caused by tap water. Thus, the results of this test show that sorbic acid is particularly suitable for preventing scale formation in watering equipment using tap water, especially in steam convection ovens. It was.

Example 2: Evaluation of scale formation inhibitory effect-2
The pH of water (drinking water) having a hardness of 150 mg / L was adjusted to 6.5 using sorbic acid, citric acid, fumaric acid, or sodium hydrogen sulfate. Next, 2000 mL of pH 6.5 water to which each acid was added was heated on an electric stove and concentrated to 100 mL. Subsequently, the precipitate of the hardness component was filtered using a membrane filter in heat-concentrated water, and then dried, and the weight of the precipitate was measured. In addition, as a blank, without adding acid, 2000 mL of water (drinking water) having a hardness of 150 mg / L was heated on an electric stove and concentrated to 100 mL, and the weight of the precipitate was measured in the same manner as described above. . Subsequently, according to the same mathematical formula as in Example 1, the inhibition rate of precipitates when each acid was added was calculated.

  The obtained results are shown in FIG. Also from this result, when sorbic acid was used, it was possible to suppress the formation of remarkably precipitates. On the other hand, when citric acid, fumaric acid, or sodium hydrogen sulfate was used, the deposit inhibition rate remained at the 30% level. The water used in this test (hardness 150 mg / L) is also assumed to be tap water with high hardness among the tap water used as domestic water in various parts of Japan. The acid was proved to be particularly suitable for preventing scale formation in watering equipment using tap water, in particular in a steam convection oven.

Example 3: Evaluation of sustained release 0.1 g of each powder of sorbic acid, citric acid, fumaric acid, or benzoic acid was packed in a column having a diameter of 9 mm and a length of 52 mm, and purified water was added to the top of the column at 18 mL / The purified water was allowed to flow out from the bottom of the column. The time from the start of flowing purified water until each acid dissolved and disappeared (visually) from the column was measured.

  The obtained results are shown in Table 1. From this result, it was clarified that the time until sorbic acid was dissolved and disappeared was remarkably longer than other acids, and sorbic acid was excellent in sustained release properties.

Example 4: Evaluation of Sustained Release of Tableted Molded Article-1
In a column having a diameter of 96 mm and a length of 195 mm, 740 g of powdered sorbic acid, 300 mg tablet of sorbic acid (100% sorbic acid, tablet diameter 10 mm, tablet thickness 5 mm), or 700 g of sorbic acid 600 mg tablet (100% sorbic acid, tablet diameter 10 mm) The tablet thickness was 6.9 mm), 700 g was charged, and tap water was allowed to flow from the top of the column at a flow rate of 100 L / hour, and tap water was allowed to flow from the bottom of the column. After the tap water started to flow, the pH of the discharged tap water was measured over time.

  The obtained results are shown in FIG. From this result, it was clarified that sorbic acid molded into a tablet can adjust a large amount of water to a value lower than 7 as compared with powder, and can maintain a state in which a scale is hardly generated.

Example 5: Evaluation of sustained release properties of tablet-molded product-2
In a column with a diameter of 96 mm and a length of 195 mm, 700 g of a sorbic acid 600 mg tablet (100% sorbic acid, tablet diameter 10 mm, tablet thickness 6.9 mm) or sorbic acid 2800 mg tablet (sorbic acid 100%, tablet diameter 20 mm, tablet thickness) (7.7 mm) was charged with 650 g, and tap water was allowed to flow from the top of the column at a flow rate of 300 L / hour, and tap water was allowed to flow from the bottom of the column. After the tap water started to flow, the pH of the discharged tap water was measured over time.

  The obtained results are shown in FIG. From this result, it was confirmed that the sorbic acid molded into a tablet shape is more excellent in sustained-release property as the tablet is larger, and can maintain a larger amount of water in a state where it is difficult to generate scale. It was also confirmed that the sorbic acid tablets were able to suppress excessive acidification of the effluent at the initial stage of water flow and obtain higher safety as the tablets were larger.

Example 6: Evaluation of sustained release properties of tableted molded article-3
Sorbic acid (with pigment) 2800 mg tablet (sorbic acid 99.95%, pigment red No. 102 (food additive) 0.05%, tablet diameter 20 mm, tablet thickness 7.7 mm) in a column of 96 mm in diameter and 195 mm in length) 650 g was charged, and tap water was introduced from the top of the column at a flow rate of 300 L / hour, and tap water was drained from the bottom of the column. After the tap water started to flow, the pH of the discharged tap water was measured over time.

  The obtained results are shown in FIG. FIG. 5 also shows the test results of the sorbic acid 2800 mg tablet used in Example 5 as a reference. From this result, sorbic acid compounded with 0.05% pigment as an additive and molded into a tablet shape resulted in the same initial pH and treated water amount as the sorbic acid tablet without additive, and the initial water flow It was also confirmed that excessive acidification of spilled water can be suppressed and higher safety can be obtained.

Example 7: Evaluation of sustained release properties of tableted molded article-4
A column having a diameter of 96 mm and a length of 195 mm is filled with 450 g of a sorbic acid molded body (100% sorbic acid, 150 g molded body), and tap water is allowed to flow from the top of the column at a flow rate of 300 L / hour. Water was drained. After the tap water started to flow, the pH of the discharged tap water was measured over time.

  The obtained results are shown in FIG. From this result, it was confirmed that a molded body of 150 g per sorbic acid is excellent in sustained-release property and can maintain more water in a state in which scale is difficult to generate. That is, it was also confirmed that the 150 g molded body of sorbic acid can suppress excessive acidification of the outflow water at the initial stage of water flow and can obtain higher safety.

Tableting molding method The 300 mg tablet and 600 mg tablet used in the above examples were prepared by using a rotary tableting machine collect 24 manufactured by Kikusui Seisakusho Co., Ltd., using a mortar and pestle having a diameter of 10 mm, and 300 mg tablet and 600 mg tablet, respectively. It adjusted so that it might become and tableted with the tableting pressure of 1.5t, and manufactured. In addition, the 2800 mg tablet used in the above examples was prepared by adjusting the sorbic acid powder to a 2800 mg tablet using a mortar and pestle having a diameter of 20 mm using a rotary tableting machine collect manufactured by Kikusui Seisakusho Co., Ltd. Tableting was performed by adjusting the tableting pressure to 7 mm. The details of the tableting conditions are shown in Table 6. The porosity can be obtained by the following mathematical formula. For example, a tablet for measuring the porosity was prepared, and tableting was performed by adjusting the sorbic acid powder to each condition using a mortar and pestle having a diameter of 25 mm with a manual single-punch tableting machine.

A 150 g molded body was manufactured by pressure molding at 1000 kg / cm ² with a cold fresh water pressure press MCT-100 manufactured by Mitsubishi Heavy Industries.

Claims (5)

A Luz scale generation inhibitor to contain sorbic acid,
The blending ratio of sorbic acid is 40 to 100% by weight,
It is a molded article that is tableted and / or granulated,
The scale formation inhibitor used for preventing the generation of scale in kitchen equipment or piping thereof, or for preventing the generation of scale generated from tap water . The scale formation inhibitor according to claim 1 , wherein the weight per molded body is 0.1 to 500 g. The scale formation inhibitor according to claim 1 or 2 , wherein the kitchen device is a steam convection oven or a dishwasher. A filling tank filled with the scale formation inhibitor according to any one of claims 1 to 3 , comprising an inlet for allowing water to flow into the filling tank, and water flowing into the filling tank. A scale generation prevention device provided with an outlet for flowing the water into the water facility. A scale formation prevention method in a water supply facility, wherein the scale production inhibitor according to any one of claims 1 to 3 is brought into contact with water.

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