Detergent compositions in tablet form

Details Detergent compositions in tablet form Detergent compositions in tablet form

2000-04-24

2002-10-29

Douyon, Lorna M. (Department: 1751)

Cleaning compositions for solid surfaces, auxiliary compositions

Cleaning compositions or processes of preparing

Solid, shaped macroscopic article or structure

C510S294000, C510S298000, C510S361000, C510S510000, C510S512000

Reexamination Certificate

active

06472362

ABSTRACT:

This invention relates to detergent compositions in the form of tablets for use in fabric washing.
Detergent compositions in tablet form have been described in, for example, GB 911204 (Unilever), U.S. Pat. No. 3,953,350 (Kao), JP 60-015500A (Lion), and EP-A-711827 (Unilever) and are sold commercially in Spain. Tablets have several advantages over powdered products: they do not require measuring and are thus easier to handle and dispense into the washload, and they are more compact, hence facilitating more economical storage.
Such tablets are generally made by compressing or compacting a quantity of detergent composition in particulate form. It is desirable that tablets should have adequate mechanical strength when dry, before use, yet disintegrate and disperse/dissolve quickly when added to wash water. It has not proved simple to achieve both properties simultaneously. As more pressure is used when a tablet is compacted, so the tablet density and strength rise, but the speed of disintegration/dissolution when the tablet comes into contact with wash water goes down.
During a period from about 1960 to 1970 there was considerable research in connection with tablets for use in fabric washing. A number of patents were published by major detergent manufacturers. Detergent tablets were sold commercially in USA and some European countries.
However, tablets disappeared from the market place in nearly all countries (Spain was the apparent exception) even though tablets have apparent advantages and have become known as a product form for machine dishwashing compositions which are characterised by a low content of organic surfactant.
U.S. Pat. No. 3,018,267 (Procter & Gamble) taught that the force, and hence pressure, applied when compacting a composition into tablets should be limited, or else the tablets would take too long to dissolve.
The compression pressure used in the Examples of this document was from 180 to 300 psi (approximately 1.2 to 2.1 MPa). Elsewhere in the document it is proposed that the pressure should not exceed 350 psi (approximately 2.5 MPa) to avoid slow disintegration encountered with higher pressures.
A number of proposals have been put forward as ways to improve the compromise between conflicting desiderata, but there still remains a desire to improve tablet strength without loss of speed of disintegration and vice versa. Some documents have proposed surface treatments or coatings to enhance tablet strength. For instance U.S. Pat. No. 3,451,928 (Colgate) stated that the problem of strength versus speed of dissolution remained unsolved, and proposed a treatment of spraying on water, followed by flash heating. U.S. Pat. No. 3,324,038 (Procter) proposed the application of a coating containing urea.
It is known to include materials whose function is to enhance disintegration of tablets when placed in wash water. Some tablets which are sold commercially incorporate urea for this purpose. Urea has a very high solubility in water exceeding 100 gms per 100 ml water at 20° C. EP-A-711827 teaches the use of sodium citrate for the-same purpose.
Detergent compositions, including tablet compositions, frequently contain a mixture of anionic and nonionic organic surfactants. It is often desirable to include both of these types of surfactant, for performance of the composition when washing fabrics.
We have now found that a good compromise between tablet strength and speed of disintegration can be achieved by following certain principles concerning tablet formulation and manufacture.
At the same time it is possible to incorporate materials which are desired to give good washing performance, and it is possible to formulate component ingredients of the tablet so that they are satisfactory in handling during tablet manufacture.
Also, we have found that two different measures of tablet strength are relevant to properties observed by a consumer. Force to cause fracture is a direct assessment of strength and indicates the tablets' resistance to breakage when handled by a consumer at the time of use. The amount of energy (or mechanical work) put in prior to fracture is a measure of table deformability and is relevant to the tablets' resistance to breakage during transport.
Both properties are relevant to consumers' perception of tablets: consumers will want tablets to be strong enough to handle, to reach them intact, and to disintegrate quickly and fully at the time of use. By following this invention's principles as to formulation, it is possible to achieve a good combination of these properties.
In this invention, we have found it desirable to incorporate most (if not all) of the surfactants in particles which constitute a substantial part but by no means all the composition of a tablet. The organic surfactant in these particles provides a substantial part, but by no means all, of their weight. Secondly, it is desirable to use a mixture of anionic and nonionic detergent surfactants where both are present in significant amounts, but anionic is clearly in the majority.
Thirdly, the balance of the composition should then contain a substantial proportion of material, other than organic surfactant, which is water soluble. This approach to formulation may be applied to the composition of a whole tablet, or to an individual region of a tablet with a plurality of distinct regions, e.g. layers.
So, according to a first aspect of this invention, there is provided a detergent tablet of compressed particulate composition wherein the tablet or a region thereof comprises organic surfactant and water-insoluble detergency builder, characterised in that the tablet or region thereof contains from 30 to 65% by weight (of the tablet or region as the case may be) of particles which contain from 20 to 50% by weight (of these particles) of non-soap organic surfactant which is anionic and nonionic surfactants in a ratio from 5:1 to 1.5:1 and in that in addition to said particles the tablet or region contains at least 15% by weight (of the tablet or region respectively) of substance which is other than soap or organic surfactant and which has a solubility in water of at least 10 gm/litre at 20° C.
We believe that concentrating most or all of the surfactant into surfactant-rich particles, and using a substantial proportion of anionic surfactant is beneficial in providing tablets which have both strength and elasticity, while allowing the remainder of the tablet composition to contain a substantial proportion of water-soluble material which assists disintegration of the tablets at the time of use.
Some, preferably at least two-thirds and more preferably at least 90% of the water-insoluble detergency builder may be present in these particles which contain the organic surfactant.
It is not necessary to include surfactant as a binder material in the part of the composition outside the surfactant-rich particles. Excluding it from this part of the composition is advantageous, to avoid interference with the prompt disintegration of this part of the composition.
Preferably, the weight of the anionic surfactant in the particles is at least 1.7 times the weight of the nonionic surfactant in them. More preferably, this weight ratio of anionic surfactant to nonionic surfactant lies in a range from 2:1 up to 5:1, and more preferably from 2:1 to 4:1. Preferably these particles contain at least 80% by weight better at least 90% or even 95% of all the organic surfactant (including any soap) in the tablet or region.
The water-soluble material which is present in the composition, externally to the surfactant-rich particles, preferably comprises at least 15% by weight (of the tablet or region as the case may be) of substance which has a water-solubility of at least 50 gm/litre in distilled water at 20° C. Some materials have been found to dissolve particularly rapidly, and are preferred, as will be explained in more detail below.
It is strongly preferred that the water-soluble material which is present in the composition, externally to the surfactant-rich particles, is present as particles which are substanti

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