RU193415U1 - Moisture-absorbing litter - Google Patents

Abstract

The utility model relates to sanitary facilities. The moisture-absorbing litter contains a moisture-proof back layer, a front layer on the side of the application to the user's body, made with the function of moisture transmission, and an inner layer located between these layers containing fluff pulp with the function of absorbing moisture entering through the face layer. Moreover, the inner layer contains in the form of granules with a size of not more than 0.4 mm inorganic additives with a porous structure with a function of absorbing moisture in this structure and with a function of adsorbing moisture in this structure. The technical result consists in increasing the operational properties of the absorbent litter by binding moisture and preventing it from flowing over the absorbent layer. 4 s.p. f-ly, 1 ill.

Description

The utility model relates to sanitary-hygienic facilities and relates to the design of disposable absorbent diapers that are placed under infants, bedridden people or animals to absorb the natural secretions of the body's activity, during illness or in other circumstances.

So known litter (diaper) absorbent disposable underlay for the care of bedridden patients and newborns, containing an absorbent layer on the side of the fluid intake, placed on a moisture-proof layer of polymer (RU 129394, A61F13 / 15, publ. 06/27/2013).

Adopted as a prototype for the claimed object.

This disposable absorbent litter contains a moisture-proof back layer (for example, of polyethylene), which is the outer layer, the front layer on the side of the application to the user's body, made with the function of moisture transmission (for example, of non-woven hydrophilic polypropylene), and the inner layer located between these layers made with the function of absorbing moisture entering through the face layer (for example, from fluff pulp).

The known diaper is made rectangular in plan, the central part of which is filled with a layer of fluff pulp, and the edges of the back and front layers around the perimeter are thermally interconnected. The dimensions of such a diaper are designed to cover an area sufficient for the location of the patient or animal, taking into account their natural movements. Such underwear diapers are classified as disposable. This is due to the fact that when a diaper is wet on a small area, for example, when several drops of liquid get in, such a diaper is considered used and must be disposed of, despite the fact that the diaper remains functional for absorbing moisture over a larger area.

Recently, in advertising information related to offers for the sale of disposable moisture-absorbing litter, it is often indicated that the moisture absorption volume for litter measuring 90x60 cm is approximately equal to from 1.3 l to 1.5 l. Practice shows that these figures refer to the case when the diaper is not under the weight of a lying patient or animal, but simply soaked to the limit with water. In reality, the moisture that has got into the fluffy cellulose layer is squeezed out by the weight of the person lying in free areas, that is, at the location of the patient lying moisture moistens the cellulose and redirects pressure to other areas of this layer. Therefore, if there is an excess of incoming moisture (for example, if the bedding has not been replaced in a timely manner for a long time, the fluff pulp layer is overflowed in areas free from external pressure). In this case, the movement of the patient from one litter to another (filled with moisture) leads to the fact that the moisture does not have time to flow onto the released area: ruptures of the outer layers of the litter occur. Despite the fact that fluff pulp is an excellent absorber of moisture and perfectly accepts it in the cavity between the fibers, but this material does not retain moisture between the fibers like wet cotton wool. Water flows perfectly from the cavities between the cellulose fibers. In this regard, if the litter is filled with an increased amount of moisture (for example, as indicated in the advertisement, 1.3 l), then the litter turns into a bag filled with water, in which water can flow from one area to another. This extreme case shows that, in reality, the litter was transferred to the disposable category precisely because the first wetting (after incontinence), the litter should be replaced with a fresh one, so as not to create inconvenience to the lying patient. If help was not provided in a timely manner, then the litter is overwhelmed with moisture, which does not interfere with moving along a layer of fluffy pulp.

This useful model is aimed at achieving a technical result, which consists in increasing the operational properties of the absorbent litter by binding moisture and preventing its overflow through the absorbent layer.

The specified technical result is achieved in that in a moisture-absorbing litter containing a moisture-proof back layer, the front layer from the side of the application to the user's body, made with the function of transmitting moisture, and the inner layer located between these layers, containing fluff pulp with the function of absorbing moisture entering through the front layer, the inner layer contains in the form of granules with a size of not more than 0.4 mm inorganic additives with a porous structure with a function of moisture absorption in this structure and with the function of ads rbtsii moisture in the structure.

The inner layer contains inorganic additives in a volume of from 7 to 12 mass. % of fluff pulp.

In this case, a mixture of zeolite, bentonite and diatomite can be used as inorganic additives with a porous structure with a function of moisture absorption, and activated carbon is used as an inorganic additive with a porous structure with a function of moisture adsorption. In addition, in the litter, the inner layer may additionally contain a polymer acrylic acid-based superabsorbent in a volume of 8 to 14 wt. % of fluff pulp.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

In FIG. 1 shows a litter with a demonstration of its layered structure.

According to the claimed utility model, a moisture-absorbing litter device is considered, which is placed under a lying person or animal to absorb the natural secretions of the body during an illness or in other circumstances.

In the General case, structurally, the litter contains a moisture-proof back layer 1, a front layer 2 from the side of the application to the user's body, made with the function of transmitting moisture, and an inner layer 3 located between these layers, containing fluff pulp that implements the function of moisture absorption, flowing through the face layer.

The main purpose of absorbent diapers for litter (diapers) is the absorption of moisture. The main component of absorption in absorbent articles is cellulose. The fibrous structure of this material in the fluffy form allows you to evenly distribute and retain in its mass the incoming moisture.

Fluffy and spatially formed cellulose is limited on one hand by moisture-permeable (for example, polypropylene fiber - non-woven material) and, on the other hand, moisture-proof (e.g. polyethylene) surface materials. Thanks to this design, the moisture that has passed through the permeable layer is in contact with the cellulose fibers and trapped in it. The waterproof layer, in turn, does not allow this moisture to penetrate the lower layer of the diaper, thereby locking it within the product.

A feature of the claimed litter is that inorganic additives with a porous structure with a function of absorbing moisture in this structure and with a function of adsorbing moisture in this structure are introduced into the inner layer of fluffy cellulose from non-liquid (preferably in powder form or finely dispersed form, or in the form of granules). Moreover, these inorganic additives are preferably used in a volume of from 7 to 12 mass. % of fluff pulp.

In the production of bedding for animals (the production technology is identical to the production of diapers for humans), inorganic additives are introduced into the composition of a down pillow instead of or together with a superabsorbent. We are talking about zeolite, diatomite additives and activated carbon.

Zeolites are the generalized name for porous minerals, framework aluminosilicates of various origins. The structure of zeolites is tetrahedra - oxides of silicon and aluminum, bonded into a rigid crystal lattice, which forms a system of channels and cavities. In the cavities are water molecules and cations of alkali and alkaline earth metals, which compensate for the negative charge of the lattice. Zeolites have sorption, ion exchange, catalytic properties. Zeolite NaA (4A) - represents balls of almost perfect round shape with a diameter of 1.6 - 2.5 mm (http://sorbis-group.com/products/tseolity/tseolit-naa-4a-sharik.php#)

Diatomite is a sedimentary rock of biogenic origin, composed of tiny folds of diatomaceous algae. Diatomite is characterized by a high content of amorphous silicon, a porous structure, low density, low heat conductivity, acid resistance, adsorbent, filter, catalytic, binding and other useful properties.

Zeolites and diatomites are widely used in cat litter because of their properties: environmental cleanliness, quickly and effectively absorbs moisture (up to 70% by weight), retains moisture and unpleasant odor inside the granules, and absolute chemical inertness.

Activated carbon is an adsorbing substance, unlike an absorbent, it does not absorb moisture, but blocks substances dissolved in moisture. This prevents the spread of odors (http://sorbis-group.com/products/ugli.php#coal).

It is also possible to use bentonite filler as a supplement to inorganic additives based on a natural material - bentonite clay. On the market, such a component is present in the form of small granules up to 3 mm (http://sorbis-group.com/products/napolniteli-koshachikh-tualetov/napolnitel-bentonite.php#).

Inorganic additives are present in the diaper in the form of granules with sizes not exceeding 0.4 mm. For grinding the initial size of the raw materials, millstones are used - low-speed mills.

Due to the effect of the interactions of the components in the absorbent layer of the litter, the maximum effect of absorbing and adsorbing properties of the product, blocking odors, reducing the rate of propagation of pathogenic microflora is achieved, and antiseptic properties are increased.

The interaction effect is understood as the combined effect on the moisture entering the cavity of the inner layer. When using fluff pulp sprayed with inorganic additives enriched with powder particles or microgranules (we mean a mixture of zeolite, diatomite and activated carbon, or each of these components is separately introduced by spraying into the fluff pulp layer), the inner layer receives a new property, which consists not only in the reception of moisture as a liquid component into the interfiber cavities existing in this layer, but also keeping it from moving by blocking moisture on the surface or in the pores of inorganic components comrade Moisture that enters the inner layer settles in the pores of the microgranules, being firmly held in them, or in contact with the surface of the granules, coming into contact with them. The remaining moisture is trapped in the cavities of the cellulose fibers. Since the granules of additives during the manufacturing process of the inner layer are almost uniformly distributed over the volume of this layer, a grid arrangement of microgranules is formed that does not allow unused moisture from one part of the litter to the other. That is, the moisture does not move, but remains as if locked in the cells of this grid. The choice of granule size (not more than 0.4 mm) is due to the fact that, when interacting with moisture, the granules, increasing in size and acquiring some hardness, do not create (even with some clumping) grouped large lumps that would create the inconvenience of lying on the bedding. With this size of microbeads, their presence is almost imperceptible to the user.

When granules with a size of less than 0.4 mm are made, the particles turn into powder, in which the dependence on ambient humidity is strongly manifested, which leads to clumping and difficulty in spraying with the batchers in the production of the inner layer. And the excess of the granule size of more than 0.4 mm leads to the fact that clumps accidentally formed in the inner layer (the connection of granules closely spaced to each other) when moisture gets on them, begin to be felt by the user and by hand to the touch. This creates discomfort when lying down. In addition, large lumps form among themselves expanded channels for the flow of moisture between cellulose fibers.

The choice of granule size is the result of a series of experiments and represents the optimal granule size for the selected components of the additives.

The choice of the three main inorganic additives - zeolite (from the group of zeolites - natrolite, chabazite, heylandite, stilbit (desmin), mordenite, thomsonite, lomontite, clinoptilolite), diatomite and activated carbon - is due to the fact that each of them has its own nature of origin and, accordingly, intrinsic properties that are not inherent in other inorganic components by origin. And the component composition of natural moisture secretions of various biological organisms (human or animal) is complex and cannot be suppressed by only one natural component. For example, the crystalline structure of natural and artificial zeolites is formed by the tetrahedral groups SiO _2/4 and AlO _2/4 , united by common vertices into a three-dimensional framework pierced by cavities and channels (windows) of 2-15 angstroms in size. The open skeleton-cavity structure of [AlSi] O ₄ ^- zeolites has a negative charge, which is compensated by counterions (metal cations, ammonium, alkyl ammonium cations and other ions introduced by the ion exchange mechanism) and easily dehydrated water molecules. Each type of zeolite is characterized by a specific window size, so the molecules of other substances are absorbed and passed (during filtration) by zeolites selectively. This phenomenon is called the molecular sieve effect. The same applies to other inorganic additives used.

In this regard, and also taking into account the complex composition of moisture, the claimed utility model uses a combination inorganic additive consisting of three complementary components - zeolite, diatomite and activated carbon - which allow not only to absorb moisture in such combinatorics, but also to transform it into a neutral substance, regardless of the chemical composition of the absorbed moisture. In addition, the process of moisture absorption by fluff pulp is a short-term process, and the time of moisture saturation by additives exceeds the time of moisture absorption by cellulose. Therefore, after the penetration of moisture into the inner layer, the moisture is gradually removed from the cellulose and its transition into the pores of the additives. The interfiber cavities of cellulose are released and can take a new portion of moisture. When saturated with moisture, the particles of additives line up in a grid frame with some mobility and elasticity, which does not affect the convenience of lying on the litter. But the main thing is that the presence of moisture in the inner layer is not uncomfortable, since the moisture is blocked and neutralized, that is, it is transferred, as it were, to “storage” not in cellulose, but in the pores of additives.

The following are examples of the composition of the inner layer of litter

Basic version
Diaper with additives Diaper with SAP (SAP) and additives Cellulose-89% Cellulose-76% Additives- 11% Superabsorbent-13% Additives-11%

The composition (formulation) of the down core of three sizes in an absorbent product using inorganic additives

Down core 320x520 mm Down core 520x520 mm Down core 520x820 mm Cellulose-75% Cellulose-74% Cellulose-78% Superabsorbent-14% Superabsorbent-14% Superabsorbent-12% Additives-11% Additives-12% Additives-10%

The percentage of all materials used in the production of absorbent diapers (by weight) using inorganic additives. Three sizes of finished products

   Diaper 60x40 - 25g.     Diaper 60x60 - 35g.    Diaper 60x90 - 55g. Cellulose: 54% Cellulose: 51% Cellulose: 55% Superabsorbent: 10% Superabsorbent: 10% Superabsorbent: 8% Non-woven Material: 11% Non-woven Material: 12% Non-woven fabric: 11.7% Glue melt: 3% Glue melt: 3% Adhesive melt: 3.6% Polyethylene: 14% Polyethylene: 15% Polyethylene: 14.7% Additives: 8% - (zeolite,
bentonite filler,
diatomite, activated carbon) Additives: 9% - (zeolite,
bentonite filler,
diatomite, activated carbon) Additives: 7% - (zeolite, bentonite filler, diatomite, activated

Adding (optional) a bentonite filler (bentonite (or bentonite clay) - a natural clay mineral formed from volcanic ash and water) to the inner layer allows the formation of strong, non-disintegrating lumps from the components of the inner layer after moisture absorption (to prevent the transition of additives to gel or a mushy state).

To enhance the absorbent properties of the inner layer, an additive in the form of a granular polymer superabsorbent (SAP or SAP) based on acrylic acid can be used. Its properties make it possible to absorb and retain liquid weighing up to two times its own weight. The use of superabsorbent allows you to repeatedly increase the basic properties of bedding, as a means to absorb and retain moisture. A superabsorbent in the form of a superabsorbent powder is introduced into the cellulose composition by proportional dosing during the formation of a down pillow and is evenly distributed throughout its mass.

But superabsorbents obtained using acrylic acid and sodium hydroxide have one important property that manufacturers do not take into account - the reversibility of the reaction. After saturation with moisture, the superabsorbent passes into a gel state. If you put the resulting gel in heat, then after a while the powder will “release” water, which can be drained, and the powder can be separated and dried for reuse. The reverse process can be accelerated by sprinkling the gel with salt (though, then the salt is mixed with the powder, which is not very convenient). The process of incontinence is accompanied by the release of moisture in the patient, which, passing through the front moisture-transmitting layer of the litter, is absorbed by fluffy cellulose and superabsorbent powder. The problem of moisture retention is solved by spreading moisture between the fibers of the fluff pulp and the absorption of part of the moisture by the powder, which immediately turns into a gel state. But, if the patient remains on the litter, then with his heat he heats the lying place, and this heat is transferred to the gel through the facial material. As you know, even with a little heating (at a temperature of warm water), the gel begins to give moisture to the external environment, and this moisture passes into fluffy cellulose.

Another element of the absorbent layer of products is tissue paper - for sanitary purposes. It is used with or without cellulose and absorbent material. In addition to its absorbent properties, yew plays the role of a membrane that prevents the backward passage through the moisture-permeable layer of the diaper - superabasorbent, saturated with water and taking a gel state.

In the framework of this utility model, the use of yew and superabsorbent is not necessary, but it is possible as bedding options.

The manufacture of a layer of fluff pulp is a known process and therefore is not considered in detail in the framework of this application.

And for the introduction of additives (sorbents) into the downy pillow of the bedding, laying or diaper, an industrial dispenser of granular granular materials, vibrational or worm (rotor) type, synchronized with the production line in terms of speed and volume of dosage, is used.

Sorbents in the form of granules are introduced by the dispenser into the air stream with fluff pulp. Due to turbulence, the sorbents are uniformly mixed with fluff pulp, the resulting composition forms an absorbent layer of the litter.

The novelty of the technological process consists in the installation of an additional dispenser or several dispensers of bulk solids, for introducing different, additional components into the down pillow of absorbent products (it all depends on the formulation and the number of types of bulk materials). The presence of a certain number of dispensers associated with the production line excludes the preparation (mixing, compliance) of the mass of additives. Eliminates the mandatory emptying of the storage hopper for switching to another type of product, eliminates the problem of heterogeneity of the mixture associated with fractional composition, mass, density.

An additional dispenser or dispensers allow you to use specific additives according to the recipe in the right amount, with a certain proportion, flexibly approach the dosage of the product. If unnecessary, it is possible to disable them altogether.

Claims (5)

1. Moisture-absorbing litter containing a moisture-proof back layer, the front layer from the side of the application to the user's body, made with the function of transmitting moisture, and the inner layer located between these layers, containing fluff pulp with the function of absorbing moisture entering through the face layer, characterized in that the inner layer contains in the form of granules no larger than 0.4 mm inorganic additives with a porous structure with a function of absorbing moisture in this structure and with a function of adsorbing moisture in this structure. 2. Litter under item 1, characterized in that the inner layer contains inorganic additives in a volume of from 7 wt.% To 12 wt.% Of fluff pulp. 3. Litter under item 1, characterized in that as inorganic additives with a porous structure with a function of moisture absorption in this structure used zeolite, bentonite and diatomite. 4. Litter under item 1, characterized in that activated carbon is used in this structure as an inorganic additive with a porous structure with a function of moisture adsorption. 5. Litter under item 1, characterized in that the inner layer additionally contains a polymer superabsorbent based on acrylic acid in a volume of from 8 wt.% To 14 wt.% Of fluff pulp.

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