JPH01110599A - Fragrant detergent composition for flush toilet - Google Patents

Abstract

PURPOSE:To provide the above composition incorporated with a block copolymer from specific propylene oxide and ethylene oxide, the chef base agent having moderate dissolution rate with its solubility independent of water temperature. CONSTITUTION:The objective composition incorporated with, for example, 50-75pts.wt. of a compound with a melting point of ca. 60-65 deg.C, of formula I [R is (pref. >=15C) alkyl, (pref. >=7C) alkylaryl or RO being lanolin alcohol; m is >=10 (pref. 10-60); n is >=100 (pref. 150-1,000); formulas II and III represent block polymer units, respectively]. The content of the propylene oxide unit in said compound is pref. ca. 5-25wt.% of the whole compound.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to an aromatic cleaning composition for flush toilets.

The cleaning agent for flush toilets is in solid form, and can be stored in a container or put directly into the water tank of the flush toilet, or attached to the washing section of the water tank. This is a drug that gradually dissolves or disperses the composition in the water stored in the tank, cleans the toilet bowl with the flushing water, and emits a fragrance to keep the inside of the toilet fresh.

[Prior Art] In addition to aromatic components and cleaning components, such aromatic cleaning agent compositions for flush toilets contain a main base. This main base material not only plays a role as a binder to solidify the aromatic ingredients and cleaning ingredients, but also controls the dissolution rate of the ingredients in running water or stored water to achieve the appropriate aromaticity and cleaning properties. It plays the role of sustaining it for a certain period of time. Such main base materials include polyethylene glycol, 011 at one or both ends of polyethylene glycol is substituted with an alkyl group to form an ether or ester (hereinafter referred to as polyethylene glycol type), and only propylene oxide and ethylene oxide. A copolymer type with hydrogen atoms at both ends (for example, JP-A-51-39705, JP-A-53-3) is used.
No. 1709, No. 55-131098 and No. 57-1
(Refer to each publication No. 79298).

[Problems to be Solved by the Invention] However, the main bases of these conventional Yoshitani cleaning agents for flush toilets each have the following problems. ″ The basic problem with polyethylene glycol type products is that they are too water soluble, resulting in poor sustainability, and that water solubility is affected by water temperature.In other words, if the water solubility is too high, the ingredients may elute. The speed increases, and the effect is lost in a short time.To compensate for this, increasing the molecular weight can suppress water solubility to some extent, but it takes a long time to increase the molecular weight, making it expensive and difficult to handle. New problems arise, such as the difficulty of
If the water solubility is easily affected by water temperature, the solubility will be different in summer and winter, and as a result, it is not preferred as a main base for an aromatic cleaning agent for flush toilets that requires moderate sustainability throughout the year.

On the other hand, in the case of a copolymer of only propylene oxide and ethylene oxide, which have hydrogen atoms at both ends, water solubility can be lowered by increasing the content of propylene oxide units in addition to increasing the molecular weight.
We are trying to obtain the desired water solubility by adjusting these :J3. However, if the content of propylene oxide units is increased, the melting point and hardness of the solid material will be lowered, and in extreme cases it may become liquid in the summer. It is difficult. One way to increase the molecular weight is to bond polyalkylene compounds with formal, etc., but it is technically difficult to further react high molecular weight raw materials to increase the molecular weight, and the resulting product is also expensive. .

An object of the present invention is to provide an aromatic cleaning composition for flush toilets, which contains a main base having an appropriate dissolution rate and whose solubility does not depend on water temperature.

Means for Solving Problem c] Such 1] target has the general formula (I)=(in the formula,
R is an alkyl group or an alkylaryl group, or R
O is a lanolin alcohol residue, ■ is an integer of 10 or more, n
is an integer of 100 or more, each of which is a block polymerization unit).

[Function and Examples] The compound represented by the general formula +11 is a block copolymer of propylene oxide and ethylene oxide,
The terminal of the propylene oxide unit has a lanolin alcohol residue, or an alkyl group or alkylaryl group via an oxygen atom. The alkyl group preferably has 15 or more carbon atoms, such as pentadecyl, hexadecyl, heptadecyl, octadecyl, nonadecyl, eicosyl, hexadecyl, tocosyl, and the like.

The alkylaryl group preferably has 7 or more carbon atoms, such as nonylphenyl and octylphenyl. When the number of carbon atoms is less than 7, the dissolution rate in water tends to be faster.

It is necessary that the degree of polymerization m of the propylene oxide unit is 10 or more. If it is less than 10, the rate of dissolution in water becomes high, which is not preferable. The larger (2) is, the lower the dissolution rate is, but at the same time the melting point is lowered. Preferably, 1 is 10 to 60, and the content of propylene oxide units is preferably about 5 to 25 96 by weight of the entire compound (1). The degree of polymerization n of ethylene oxide must be 100 or more, preferably 150 to 1000, in order to avoid liquefaction (melting) during summer.

The melting point of such compound (1) is about 60-65°C.

In addition to the above-mentioned compound (11) as the main base, the aromatic cleaning composition for flush toilets of the present invention contains ordinary aromatic components, cleaning components, and other harmful agents.The blending ratio of these components is selected as appropriate depending on the product design, but is usually selected within the following range.

(ffl parts) Main base represented by general formula +1) 50-75 Yoshitani (
Deodorizing) Ingredients 10-20 Cleaning Ingredients
lO~5Others
30-0 aroma 6 (deodorizing) ingredients include aroma ingredients represented by blended δ ingredients, malic acid, glyoxal, and other deodorizing ingredients, and cleaning ingredients include ether-type nonionic surfactants, α - Substances commonly used in this field, such as olefin hydrocarbon compounds and alkyl ether sulfates, can be used as they are. Other ingredients include coloring agents that give toilet flushing a sense of cleanliness, emulsifying and solubilizing agents for oil-based ingredients, disinfectants, and chelating agents, as well as bulking agents such as Glauber's Salt and glucose, and polyethylene glycol or its derivatives. A solubility regulator and the like may also be added as appropriate.

These ingredients are mixed, molded, and washed with water.] - An air freshener for islets is produced.The molding method involves heating and melting the main base component, and then mixing the other components while stirring. Then, after slow cooling to near the solidification point, it is poured into a mold and solidified, or after each component is made into fine powder and mixed uniformly, it is compression molded.

Next, the composition of the present invention will be explained based on Examples.
The present invention is not limited to such embodiments.

Example 1 Among the following ingredients, after heating and melting the raw trapped ingredients, the remaining ingredients were added to a stirrer and mixed, slowly cooled to around the freezing point, placed in a mold, and solidified to form the flush toilet of the present invention. An aromatic agent was prepared.

(Ingredients) (Parts by weight) H3 C110÷C112C110±-→C112C11Ohi]T1165+8 37 40 Drinks
20 Cleaning ingredients 5
(Polyoxyethylene sorbitan fatty acid ester) Colorant 10 Example 2 The following components were mixed and solidified in the same manner as in Example 1 to prepare an aromatic cleaning agent for flush toilets of the present invention.

(Component) (Parts by weight) H3 CII O+Cl12CIIO→-(-C112C1
10 Hi 1 Chou 1160 Valley Fee
20 cleaning ingredients
5 (polyoxyethylene sorbitan fatty acid ester) Colorant IO neutral anhydrous sodium sulfate 5 Example 3 The following components were mixed and solidified in the same manner as in Example 1 to prepare a fragrance cleanser for flush toilets of the present invention ( Ingredients) (Parts by weight) H3 RO+ C112C110→→C112CIIO-)
500 II 65 (RO is the residue of lanolin alcohol) Fragrance
20 cleaning ingredients
5 (Polyoxyethylene sorbitan fatty acid ester) Blue agent lO Comparative Example 1 A comparative aromatic cleaner for toilets was prepared in the same manner as in Example 1 except that polyethylene glycol taooo was used as the main base. did.

Test Example 1 (Flowing Water Test) As shown in Figure 1, it has a water entry opening (1) at the top,
Lid (3) with 4 drainage holes (2) on the side and diameter 40
A container consisting of a cylindrical body (4) with a height of 70 mm was filled with 50 g of each of the compositions (5) of Examples 1 to 3 and Comparative Example 1, and then cooled and solidified.

These containers are used in the low tank of a household flush toilet (water storage capacity: Ill!, TOTOS-67 manufactured by Tonan Kiki ■).
0) installed in the toilet, the number of times it can be used and the amount of water flowing in the toilet bowl.
The average absorbance ([130n11) was measured (spectrophotometer UV-2051'W manufactured by Shimabara Seisakusho). The temperature of the water in the low tank and the injected water was maintained at 30°C or 5°C, and each was set to be flushed automatically once every hour. The number of usable times refers to the number of times the toilet bowl can be used until the average absorbance of the water flowing in the toilet becomes zero under the above conditions.

The results are shown in Table 1.

[Left below] As is clear from Table 1, when the composition of the present invention is used, it has excellent durability under both high and low temperatures, and is particularly effective at high water temperatures (30°C). Are better.

Test Example 2 (Temperature Dependency Test) In order to demonstrate that the solubility of the compound (1) in water used as the main base of the aromatic cleaning composition of the present invention does not easily depend on water temperature, the following test was conducted. Ta.

22 weight 26 aqueous solution of compound (1) used in Example 3 and 1.8ff of polyethylene glycol 20000
I amount % aqueous solutions were each prepared at 10° C., and the viscosity at that time was determined using a Brookfield rotational viscometer. Next, the temperature of each aqueous solution was gradually raised, and the viscosity at 20°C and 30°C was determined (81') to examine the temperature dependence of the viscosity. The results are shown in Figure 2.

As is clear from FIG. 2, the viscosity of the solution of the compound (1) used in the present invention has little temperature dependence, and even though the viscosity of the polyethylene glycol aqueous solution decreases significantly especially in the high temperature range, Maintains high viscosity.

As described above, if the viscosity is constant, the diffusion of the solute into water is also constant, and as a result, in the present invention, the solubility does not change much even at high temperatures. This agrees with the results of Test Example 1. On the other hand, substances such as polyethylene glycol which have a low viscosity at high temperatures have high solubility and are poor in durability.

[Effects of the Invention] When using the aromatic cleaning composition for flush toilets of the present invention, (1) the dissolution rate in water is faster than that of aromatic cleaning compositions whose main base is polyethylene glycol type; (As is clear from '2J Test Examples 1 and 2, the solubility of the composition of the present invention in water is not affected by the water temperature, and therefore the water temperature does not change between summer and winter.) (3) Unlike polyethylene glycol type compounds, the compound (I) used as the main base material in the present invention has a hydrophilic group. In addition, since it has 6 hydrophobic groups, it has 11 times more cleaning power than polyethylene glycol type products.

[Brief explanation of the drawing]

Figure 1 shows the It! ! The schematic perspective view and FIG. 2 are graphs showing the temperature dependence of the viscosity of the main base aqueous solution and the polyethylene glycol aqueous solution used in the present invention.

Claims (1)

[Claims] 1 General formula (I): ▲Mathematical formulas, chemical formulas, tables, etc.▼(I) (In the formula, R is an alkyl group or alkylaryl group, or RO is a lanolin alcohol residue, m is 10 or more , n is an integer of 100 or more, and ▲ has a mathematical formula, chemical formula, table, etc. ▼ is a block polymerization unit, respectively) is used as a compounding agent. thing.