BE1023272B1 - Composition of bactericidal rubber and use in animal husbandry. - Google Patents

Abstract

Composition of a bactericidal rubber, characterized in that at least 5 weight of the composition consists of the use of this bactericidal rubber in any livestock farming or in animal care.

Description

Composition of bactericidal rubber and use in animal husbandry.

The present invention relates to a composition of a bactericidal rubber and its use in animal husbandry.

More specifically, the invention is intended for producing rubber teats for feeding young animals and for rubber teat liners for milking dairy cattle by means of milking machines and other applications in animal husbandry or animal care.

Udder inflammation or mastitis is known to be a serious problem in dairy farming.

Mastitis in cows is generally caused by Streptococci and staphylococci, such as Streptococcus agalactiae and Staphylococcus aureus.

Other pathogenic organisms can also occur:

Enterobacteriaceae, Corynebacterium, Pseudomonas, mycoplasm, Pasteurella, Angina and the like.

This condition is traditionally treated with antibiotics, but these harm the body of the animal because they generally also suppress the immune system. People as users of the milk are also harmed because the antibiotics cause resistant bacteria and adversely affect the quality of the milk.

The use of antibiotics is also discouraged in many countries and other pesticides are being sought.

The European Committee for Homeopathy has recommended the replacement of antibiotics and hormones in animal husbandry with homeopathic remedies to limit the risk of allergic reactions among users.

Other alternative pesticides are proposed such as heliotherapy, herbal medicine, acupuncture, etc. These remedies are harmless to humans and animals, but cannot always be used practically in animal husbandry.

It is also known that automatic milking machines can contribute to the rapid spread of mastitis from one infected cow to other cows. The teat liner that encloses the teat of the dairy cow during milking will be reused in another dairy cow after milking, which may give rise to the transfer of pathogenic microorganisms from one cow to another.

The teat liner usually contains carbon black, which turns the rubber black, which makes it difficult to keep the rubber clean, since dirt is less visible. Moreover, tests have shown that rubber with ZnO increases milk production when used in nipple liners.

The object of the present invention is to provide a solution for the aforementioned and other disadvantages, by providing a composition for a bactericidal rubber that can be used in teats or teat liners used in dairy farming.

For this purpose the invention relates to a composition for a bactericidal rubber, wherein at least 5% by weight of the composition consists of zinc-containing particles.

The zinc-containing particles preferably consist of metallic zinc or zinc compounds such as oxides, phosphates, sulfides or borides.

The zinc-containing nanoparticles are preferably smaller than 1 micron.

A typical metal oxide mixture that is added to natural rubber in a concentration of 0.5% of the total weight, contains the following components:

Weight% Al2O3 3.9 B2O3 4 7.5

CaO 1.8

MgO 9.7

Pa05 36.4

Na 2 O 0.4 where the respective mutual amounts can vary according to the bacterial spectrum and the time required to kill them.

This mixture of metal oxides is added to natural rubber in an amount of 0.5% by weight, plus ZnO itself which is added in an amount of at least 6% by weight and preferably 8% by weight of the resulting rubber.

The metal in the metallic particles is preferably zinc, but copper can also be used.

Preferably the rubber contains at least 5% by weight of ZnO, in order to ensure the desired bactericidal activity and to obtain a white color.

The composition of the rubber is preferably as follows: 80.9 wt%: natural rubber 9.5 wt%: zinc oxide 3.1 wt%: technical stearic acid CH3 (CH2) ιβΟΟΟΗ 1.9 wt%: industrial mineral oil .1.6 wt %: antioxidant for rubber C23h320? 0.9 wt%: N-cyclohexyl ~ 2-benzothiazolesulfenamide C13 H16 N2 S2 0.5 wt%: low density polyethylene LDPE 0.5 wt%: metal oxide mixture

The natural rubber component in this rubber composition can optionally be replaced with synthetic polymers to obtain a flexible elastic polymer such as PET, PPE, or HDPPE.

Preferably, the oxide mixture is vulcanized by heating for 15 minutes (+ / ~ 1 minute) at 150 ° C at a pressure of 18 to 20 MPa.

An advantage of the metal oxide mixture is that it ensures that the rubber remains sufficiently plastic and elastic to be used as a raw material for producing teats and teat liners for feeding and milking cattle in dairy farming.

An advantage of adding ZnO is that it makes the rubber less irritating to the cow and encourages her to empty the udder more fully, resulting in a higher milk yield.

This invention also relates to a method for producing a bactericidal rubber intended for forming objects from this bactericidal rubber.

The method for producing bactericidal rubber consists of the following steps: o mixing the following ingredients: 80.9 wt%: natural rubber 9.5 wt%: zinc oxide

3.1 wt%: technical stearic acid CH3 (CH2) ecOOH 1.9 wt%: industrial mineral oil 1.6 wt%: antioxidant for rubber C23H32O2 0.9 wt%: N-cyclohexyl-2-benzothiazolesulfenamide C13H16N2S2 0.5 wt %: low density polyethylene LDPE 0.5 wt%: metal oxide mixture within a tolerance of 3% or less of the target values, followed by compression and kneading of the mixture; o optionally adding dyes to color the rubber if it needs to have a color; o pulling it into strips. mixture in strips 3 to 4 cm wide and drying these strips. These bars are used as raw material for an extrusion machine, which injects the molten bars into a preformed mold, in which the articles are produced from bactericidal rubber.

These objects can be nipple liners and teats for feeding animals, but also animal feed troughs, mats on which animals can lie, rubber hoses for milking machines, shoes, gloves and aprons for animal keepers, rubber mats for laboratories or for sterile rooms or other objects themselves which must be free of bacterial infections.

The teats made of bactericidal rubber can be used for feeding young animals, so that they cannot be infected by their mother's infected nipples.

The teat cup liners can be used in automatic milking machines, the teat cup liners enclosing the cow's nipples and transferring the milking movement without contamination of the nipples with bacteria originating from a previous dairy cow.

The advantage of such a milking machine is that it prevents a large percentage of the dairy cattle being milked by the same machine from showing the same udder infection or mastitis.

For the purpose of better demonstrating the features of the invention, some preferred embodiments of bactericidal rubber are described below by way of example, without any limiting character, with reference to the accompanying drawings, in which:

Figure 1 schematically and in perspective shows a nipple liner made of bactericidal rubber according to the invention; figure 2 represents the teat liner of figure 1 in perspective, used in a milking machine for dairy cattle; figure 3 schematically and in perspective shows a teat made of bactericidal rubber according to the invention applied to a drinking bottle for feeding animals.

Figure 1 shows schematically a teat cup 1 made of a bactericidal rubber consisting of a nozzle 2 and a tube 3 provided with a lining 4 on the inside of the nozzle and the tube which comes into contact with the teat of the dairy cow during milking .

Figure 2 shows in perspective how four teat cup liners 1 are arranged on four udder tops of an udder 5 of the dairy cow 6, wherein each teat cup liner is connected to a drain 7 to a milking machine 8 in which the milk is collected.

Figure 3 shows in perspective how a young animal, in this case a calf 9, is fed with a milk or water bottle 10, provided with a teat 11 of bactericidal rubber according to the invention.

The use of a bactericidal rubber with a composition according to the invention is very simple and as follows.

The bactericidal rubber is used as a raw material for teats or nipple liners for feeding or milking dairy cattle or other animals, but also for holders of animal feed or for a stable mat on which the animals reside. The bactericidal action of the rubber surface prevents these articles from forming sources of contamination that can transfer bacterial infections from one animal to another.

An experiment with teat liners, for example, showed that when conventional teat liners were used, the number of microorganisms on the teats barely decreased (from 840,000 CFU / cm3 to 800,000 CFU / cm3). If the nipple liners were replaced with bactericidal rubber nipple liners according to this invention, the number of microorganisms on the nipples decreased from 840,000 CFU / cm 3 to 91,000 CFU / cm 3.

After milking with bacterial killing rubber teat liners for 10 minutes, the number of microorganisms on the nipples dropped to 590 CFU / cm3.

After using the bacterial killing nipple liners for two weeks, the percentage of cows with mastitis decreased from 7.3% to 5.7%, and the number of microorganisms in the milk decreased by a factor of 2.3 from 280,000 CFU / cm3 to 120,000 CFU / cm3.

The use of nipple liners of bactericidal rubber according to the invention leads to a total therapeutic effect on the welfare of the dairy cattle, to a reduction of the bacterial load on the nipple by all living bacteria and to a halving of the contamination of the milk. All this leads to a fundamental increase in efficiency at every stage of dairy farming.

The prolonged use of the teat liners leads to the occurrence of small cracks on the surface of the bactericidal rubber. Experiments show that these small cracks do not decrease the bactericidal effect, but on the contrary increase it, possibly because they increase the contact surface with the zinc-containing particles.

The present invention is by no means limited by the embodiments described as an example and shown in the drawings, but a bactericidal rubber according to the invention can be realized in all shapes and sizes without falling outside the scope of the invention as defined in the following claims.

Claims (11)

Conclusions. Composition of a bactericidal rubber, characterized in that at least 5% by weight of the composition consists of zinc-containing particles smaller than 1 micron. Composition of a bactericidal rubber according to claim 1, characterized in that the zinc in the zinc-containing particles has been wholly or partially replaced by copper. Composition of a bactericidal rubber according to claim 1, characterized in that the 2ink-containing particles consist of pure zinc or of oxides, phosphates, borides or sulphides of zinc. Composition of a bactericidal rubber according to claim 1, characterized in that the zinc-containing particles are nanoparticles smaller than 1 micron. Composition of a bactericidal rubber according to claim 1, characterized in that ZnO itself is added in an amount of at least 5% by weight and preferably at least 8% by weight of the resulting white rubber. Composition of a bactericidal rubber according to claim 1, characterized in that the surface of the bactericidal rubber is provided with small cracks which increase the bactericidal activity. Use of a composition for a bactericidal rubber described in claim 1, characterized in that the bactericidal rubber is used as a raw material for teats or teat liners for feeding or milking dairy cattle. Composition for a bactericidal rubber according to claim 1, characterized in that the composition of the bactericidal rubber is the following: 80.9 wt%: natural rubber 9.5 wtl: zinc oxide ZnO 3.1 wt%: technical stearic acid CH3 (CH2) leCOOH 1.9 wt%: industrial mineral oil 1.6 wt%: antioxidant for rubber C23H32O2 0.9 wt%: N ~ cyclohexyl-2-benzothiazolesulfenamide Ci3Hi6N2S2 0.5 wt%: low density polyethylene LDPE 0.5 wt%: metal oxide mixture 9. - Production process for producing bactericidal rubber, characterized in that the process consists of the following steps: o Mixing of the following ingredients: 80.9 wt%: natural rubber 9.5 wt%: zinc oxide ZnO 3.1 wt%: technical stearic acid CH3 (CH2} lf> COOH 1.9 wt%: industrial mineral oil 1.6 wt%: antioxidant for rubber C23H32O2 0.9 wt%: N-cyclohexyl-2-benzothiazolesulfenamide 0.5 wt%: low density polyethylene LDPE 0.5 wt% : metal oxide mixture within a tolerance of + / - 3% or less of the target value, followed by compression and kneading of the mixture o optionally adding dyes to color the rubber if it is to be colored; drawing the mixture into strips 3 to 4 cm wide, and drying these strips. The use of a bactericidal rubber as described in claim 1, for producing objects with which animals or people come into contact and which are free of bacterial infections and are, in particular in nipple linings, teats and feed containers for animals, and stable mats on which animals can lie. Method for milking dairy cattle with an automatic milking machine, characterized in that the automatic milking machine is provided with teat liners made of bactericidal rubber comprising zinc-containing nanoparticles as described in claim 1. Method for feeding animals by means of feeding bottles provided with teats, characterized in that the teats are made of bactericidal rubber as described in claim 1.