DE212014000230U1 - Claw hooves of ungulates using a jet of liquid and a veterinary cutting set - Google Patents

Abstract

Veterinary cutting set for claw care by means of a fluid jet, characterized in that it consists of a source of pressure fluid and an applicator (2), which is closed by a nozzle (3), wherein the applicator is movably mounted in a guide device.

Description

THE iNVENTION field

The present invention relates to claw care of ungulates by means of a veterinary cutting kit for cutting by means of a jet of liquid and thus relates to the field of veterinary equipment.

State of the art

The biomechanics of animal movement shows that the forelegs of the animals carry the weight much more flexibly than the hind legs. The front legs also "endure" more than the hind legs. The hind leg movement study found that the largest amount of weight is shifted from one leg to the other, even when the animal is quiet at one point. There would be no problem if the weight were shifted evenly on both jaws (inside and outside claw). The fact is, however, that the outer claw is loaded with more weight than the inner claw. Comparing the size and the surface of the claws bearing the weight of the animal (they must carry 600-700 kg of living mass), the outer claw is larger and straighter. The inner sole of the hoof of the hoof has a sharper angle and a slope, thus ensuring a small stability, especially when the animal is placed on a hard concrete surface, as is common in most of the existing breeding facilities. The outer claw must compensate for this disproportion due to the higher load and is worn earlier than the inner claw. The living tissue responds to the overload with the increased production of horny material, and the outer claw is then overloaded. When walking, deformations occur inside the claw. The claw-bone transfers the weight of the animal (cows) to the dermis (on the living tissue) and thus to the insole of the hoof. Between the claw bone and the dermis or the tissue there is a footpad called cushion, which relieves the shocks during movement. Under normal circumstances, the bumps are sufficiently absorbed and the animal moves comfortably, but if the hoof's sole is too thick, the footpick will not be able to absorb the bumps sufficiently. The claw bone often bumps into the heel strike so hard that it shreds the blood capillaries and creates a bruise on the insole of the hoof. Failure to treat the claw results in a major defect, and this seriously damages the formation of horny material, creating a painful wound. At best, one can solve the problem of the resulting wound (abscess) by relieving the affected outer claw by "block". Depending on the degree of impact of neglected claws, dairy cows' productivity is even reduced by 5-50%. In very painful episodes, it even causes a daily loss of 1 kg of the weight of a dairy cow. If neglected further, it leads to serious problems in the overall health of the affected cows, significant weight loss, to stop milk production, and then to the necessary excretion from the farm. In a large number of dairy cows, claw gland intrusion occurs approximately six months after the last treatment, due to the fact that the production of horny matter is higher in the cows than the possibility of natural abrasiveness. Adjacent claws cause the rise of a wide range of pain disorders, not just claws. They are the immediate cause of many acute and chronic, aseptic inflammations of the claw-foot. Indirectly they are responsible for the development of Rusterholz abscess, rot and crooked claws and cause the release of the edge of the sole of the foot. Such situations can be avoided by corresponding shortening of the front wall of the claws of about 7.5 cm and especially by the proper treatment of the thickness of the outer claw, this treatment then ensuring uniform loading of both claws. This approach is effective against the formation of abscesses of the hoof sole of the hoof.

The current implementation of the claw process does not comply with the established principles for the welfare of livestock. The treatment leads to the stress of the animals, with frequent occurrence of infections (ie costs for the subsequent treatment), which is reflected in their productivity (lower milk production, the need for early exclusion from breeding etc.) and thus also in the overall economy of the Agriculture reflects. In the prior art, only the manual claw treatment using cutting tools or manual cutting by means of power tools and grinding tools are described. It's also through the WO 9107259 A1 a mechanical removal of the horn parts in the ungulates known. However, these do not ensure a sufficient definition of the interface between the clavicle bones with the soft tissue and the horn claw itself. The diagnostics of the hoof is based only on the visual assessment of the condition of the hooves. It is basically a very subjective factor that often causes damage to soft tissue on clawed bones. So exposed Soft tissues are prone to infection and their treatment is tedious and often leads to forced excretion for the slaughterhouse.

The removal of pathogenic soft tissue and hard materials is one of the usual surgical treatments of the human body or in the human body. These treatments are usually performed by conventional cutting tools such as scalpel, saw, chisel, etc.

There are already known treatments for the surface application and abrasion of tissue and also hard materials by means of the pressure of a gaseous medium with the use of abrasive materials, such as. B. in the WO 2013164409 A1 with the pressure of 0.3 to 0.5 MPa, in the US Pat. No. 2,759,266 and in the US 2002123020 is described, which is used in particular in the dental field.

Also known is the abrasion of the fabric and the hard materials by means of the pressure of a liquid medium with the use of abrasive materials, such as. B. in the EP 1676535 A1 in which the pressure of a working medium is used, about 60-130 MPa, is described.

Article 13 of the Treaty on the Functioning of the European Union recognizes animals as living creatures and, at the same time, requires full compliance with animal welfare requirements in the formulation and enforcement of some EU policies. Various aspects of the protection of livestock are related to the horizontal Council Directive 98/58 / EC of 20 July 1998 on the protection of animals kept for farming purposes ( ES L 221, 8.8.1998, p. 23 ). The simultaneous communication from the Commission to the European Parliament, the Council and the Economic and Social Committee on the European Union Strategy for the Protection and Welfare of Animals for the period 2012-2015 (source: COM (2012) 6 final / 2 Brussels 2012.02.15 ) based on the experience gained during the Action Plan for the years 2006-2010, taking into account scientific and technological progress, is based on the drafting of the lines of action of the European Union over the next four years, in order to integrate animal welfare with economic realities in the implementation of existing legislation in To bring harmony. This strategy is a continuation of the action plan, as recommended by most stakeholders and the European Parliament. Animal husbandry in the EU has an annual value of € 149 billion, and the annual value of the use of experimental animals is estimated at € 930,000,000.

In terms of economics, healthy hooves have a significant economic impact. This effect may be a direct consequence of the loss of an animal, or an indirect consequence of reduced milk production. Based on a simple calculation of the weight (10,000 kg / cow / year), and 40% of the disease frequency, the cost of disease treatment is 1.4 cents / kg. For the herd size of 150 cows, the losses are higher than 20,000 Euro. Annual losses for the EU: € 1.65 billion (source: Reszler, H :. The nuts and bolts of a successful, functional claw care, available at: www.klauenpflege.de ).

For continuing problems of claw-care of hoofed animals there is a societal demand for the improvement or complete abolition of the unwanted side effects that arise in the current hoof care. It is a requirement concerning technology in terms of animal welfare. The result of this effort is still claw care of ungulates and the necessary equipment. The present invention is designed so that in the claw care with the cutting set for cutting by means of a liquid jet is used.

Principle of the invention

• – Huf-Stabilisierung mit der Klaue des Huftiers in einer Spannvorrichtung und/oder in einem Käfig;
• – Reinigung der Hufe und Klauen von Huftieren mittels einer Druckflüssigkeit;
• – Physikalische Diagnostik von Hufen und Klauen mit der Festlegung der angegebenen Schnittstelle zwischen der Klaue und Hufe;
• – Einmessung der Schnittebene im Schnittstellenbereich zwischen der Klaue und Hufe;
• – Abtrennung der Klaue vom Huf mittels eines Flüssigkeitsstrahls im flüssigen oder Luftmedium in einer Schneidebene, und zwar durch die Wirkung des Strahls der Druckflüssigkeit mit dem Arbeitsdruck von 120–250 MPa und einer Strömungsgeschwindigkeit der Druckflüssigkeit von 4–15 l/min mit einer Beschickungsgeschwindigkeit des Strahls der Druckflüssigkeit von 10–220 mm/min, und die Dicke des Druckflüssigkeitsstrahls von 0,5–1,0 mm.

The above-mentioned disadvantages are substantially eliminated by the invention of claw-care by means of a veterinary cutting set intended for cutting by means of a jet of liquid. For the purposes of this invention, it should be clarified that the term "ungulates" refers to the animals with hoofs from the group of economic animals and wild animals. The principle of the invention of claw care of ungulates lies in the following sequence of steps:

• Hoof stabilization with the claw of the hoofed animal in a tensioning device and / or in a cage;
• - cleaning the hooves and claws of ungulates using a pressurized liquid;
• - Physical diagnostics of hoofs and claws with the definition of the specified interface between the claw and hooves;
• - measurement of the cutting plane in the interface area between the claw and hooves;
• Separation of the claw from the hoof by means of a liquid jet in the liquid or air medium in a cutting plane, by the action of the jet of pressurized liquid with the working pressure of 120-250 MPa and a flow rate of the pressure liquid of 4-15 l / min with a feed rate of Jet of pressurized fluid of 10-220 mm / min, and the thickness of the pressurized fluid jet of 0.5-1.0 mm.

In hoof care of ungulates according to this invention, at least three of the above steps are strictly required. This is the preliminary step for the stabilization of the lower leg with the hoof of ungulates in the jig or cage. It is also a step for the dimension of the cutting plane of the interface between the claw and the hoof. This step may be performed, for example, by using a laser beam, or this step may be performed by using a liquid jet having a pressure of less than 120 MPa. It is possible to use, for example, pressures of 20-60. Finally, it is the final step of separating the claw from the hoof by means of the liquid jet. Between the first step and the step of measuring the cutting plane of the interface between the claw and the hoof, the step of cleaning the claw and hoof by means of the pressurized liquid jet may be added, with the cleaning pressure of substantially less than 120 MPa. It is possible to use pressures of, for example, 5-10 MPa. Then it is possible to add disinfectant to the water. With sufficient cleanliness of the hoof of ungulates this step can be skipped. Alternatively, between the first step and the step of measuring the sectional plane of the interface between the claw and the hoof, the step based on the physical diagnosis of the claw and the hoof may be added, for example based on ultrasonic waves, infrared waves, X-rays or electromagnetic waves Waves of the entire spectrum and on other suitable, physical treatments of material diagnostics. The usable output of physical diagnostics is the definition of the interface between the claw and the hoof. If the physical diagnostics were not done in this way as described above, the interface between the jaw and the hoof would only be made on the basis of practical experience and the direct, visual assessment of the surgeon or assistant.

The availability and possibilities for the technical equipment by means of which the claw-care of hoofed animals according to this invention is carried out makes it possible to carry out the physical diagnostics of the hoof and the hoof and the determination of the claw-hoof interface in a common step. Alternatively, this may be a combination of the physical diagnostics of the claw and the hoof and the determination of the interface between the claw and the hoof and the alignment of the cutting plane of the interface between the claw and the hoof in a common step.

However, the possibilities of the invention are such that of all five steps only three basic steps are used, and four basic steps are used, or all five steps.

The medium of the liquid jet is preferably water or water with abrasive or water, which includes analgesics, medicines, tranquilizers, and other suitable medical agents.

In the following table, the process parameters of water jet cutting are indicated in thirteen measurements: operating water pressure, feed speed of the applicator with a nozzle, feed indicator, real water flow through the nozzle. Waterjet cutting was performed on the cattle hooves, the claw parameters being characterized by the thickness of the sections, length and depth of the cut. Of all these parameters, the time during cutting is derived. table measurement number Operating pressure (MPa) feed ads Feed rate Calculated (mm / min) real water flow rate (l / min) Time of cutting (s) Thickness of section (mm) Cutting length (mm) Cutting depth (mm) 220 30 90 10.97 26.9 11 40.3 27.2 220 40 82 10.97 34.3 5 47.1 80.7 220 50 112 10.97 26.6 8th 49.7 40.8 220 60 195 10.97 12.5 15 40.7 28.5 220 60 211 10.97 14.1 2.5 49.7 84.1 220 70 230 10.97 12.2 10 46.8 42.9 180 40 73 9.1 46.3 9 56.2 96.1 150 30 17 8.3 120.24 12 33.3 21.9 150 40 70 8.3 51.9 12 61 78.2 150 50 184 8.3 15.2 11 46.6 35.7 120 30 34 7.5 120.07 9 67.1 98.7 120 30 15 7.5 13 8th 32.8 18.9 120 40 64 7.5 52.9 7 56.8 84.2

For claw care of ungulate animals by means of a jet of liquid, a veterinary cutting set for cutting with the liquid jet according to this invention has been developed. The principle of the veterinary cutting set is that it consists of a single source of pressurized fluid with an applicator connected to the source of pressurized fluid by means of a high pressure hose and terminated by the nozzle. The applicator is movably mounted within the guide device. The guide device guides the applicator so that the pressure fluid emerging from the nozzle forms a cutting plane. The design of the guide device has, for example, the shape of a short guide bar, in which the applicator moves linearly over the short distance. The structure of the guide device has for example the form of a journal bearing in which the applicator swings pivotally in the small angle. The guide device is still adjustable relative to the stabilizer, the jig or the cage mounted, wherein the cage forms part of the veterinary cutting set for cutting with the liquid jet or its supplement. For safety reasons, the guide device and / or stabilizer, tensioning device or cage is provided with a protective shield.

The advantages of the present claw-care of ungulates by means of a veterinary cutting set for cutting with the liquid jet according to this invention are that the technology of the liquid jet has many advantages, some of which does not allow other technology. If there is no thermal influence on the tissue, it is a so-called cold cut, in which the limb does not overheat; the animal is not exposed to the pain (either the procedure itself or the pain caused by overgrowth or other damage to the claw), so the animal is not stressed, which in turn promotes its milk production. Due to minimal cutting force, complete locking of ungulates is not necessary; therefore their welfare is increased. The possibility of fully automated treatment is given resulting in low labor intensity without the need for heavy physical work to ensure the claw care of the animals. It also ensures the sterility of the entire treatment and high energy efficiency of about 85%. It makes it possible to perfectly clean the surgical site before the incision; if necessary, the damaged, infected (painful) site can be treated and then the procedure performed. Disinfecting the claw can be done directly at the intervention; The disinfectant is added to the liquid. The claw care can be more intensive because it can be performed more frequently compared to the current state when the treatment is performed twice a year, which is physically and time consuming. This increases the welfare of the animals. It is a time-saving technology compared to the current state of claw care of animals. The time required for a section is about 12 seconds to 2 minutes. There is the possibility of using another working fluid (for example, if the fluid contains analgesics, medications, sedatives, etc.). It is an environmentally friendly technology because there is no additional waste or pollution because the working fluid is water. The cutting edges show no thermal and mechanical deformation, and the cutting process is dust-free without the formation of gases and vapors, so different than it is in the mechanical cutting process (the smell of charring). A high-pressure pump can simultaneously effect several active nozzles of the water jet or nozzles of the abrasive jet. The service life of the liquid nozzles is about 1000 hours, and the useful life of the abrasive nozzles is about 500 hours. There is also the possibility of cutting under water. It is possible to cut without restrictions in all directions, contours, shapes and bevels. It is exceptional reliability and simple Operation guaranteed. By changing the pressure, it is possible to rinse, spray, clean and cut material within seconds. It is given a high flexibility even with complex geometry of the cut.

embodiment

The invention of claw care of hoofed animals by means of a veterinary cutting kit for cutting with the liquid jet will now be explained in more detail with reference to the attached drawing, which shows a configuration of a part of a veterinary cutting kit for hoof care and for fixing the leg of hoofed animals with the route determination of the pressurized liquid jet. It should be understood that the various embodiments of the invention are presented for purposes of illustration and are not to be construed as limitations on the technical solutions. Those skilled in the art will or will be able to recognize that the solutions according to this invention may have many equivalents; such equivalents are also covered by the following claims.

example 1

This example describes claw care of ungulates using a veterinary cutting set for cutting with the jet of liquid in an air medium according to all five steps described. In the attached table, it is the measurement of the number 6 cutting. The veterinary cutting set for liquid jet cutting includes a source of pressurized fluid, not shown, and the applicator 2 coming from a nozzle 3 is completed, with a thickness of the pressurized liquid jet of 0.7 mm, as shown in the figure. Before cutting the claw 4 the hoof becomes the lower leg with a Hoof hoof in the jig 1 stabilized, and the claw 4 is by means of the pressurized liquid jet 5 or cleaned with water at a cleaning pressure of 7 MPa. Alternatively, disinfectant is added to the water. The physical diagnostics of the claws and hooves are performed based on ultrasonic waves and the interface between the claw and the hoof is determined. Subsequently, the cutting plane is measured with the pressure of 25 MPa. Alternatively, focusing is performed by laser. Subsequently, the claw 4 from the hoof in the cutting plane by the action of the hydraulic fluid jet 5 separated; it is used water with an operating pressure of 220 MPa and a flow rate of the pressure fluid of 10.97 l / min. The feed rate of the hydraulic fluid jet 5 is 230 mm / min. Alternatively, an abrasive is added to the water. The following result was achieved. The claw thickness was removed with a section thickness of 10 mm. The cut length on the claw was 46.8 mm and the depth of cut of the claw was 42.9 mm. The cutting time was 12.2 s. An alternative to the clamping device 5 was a cage, which leads to the stabilization of the animal, that is, immobilization of at least his legs and hooves.

Example 2

This example describes claw care of ungulates using a veterinary cutting set for cutting with the jet of liquid in an air medium according to all five steps described. In the attached table it is the measurement of the cutting with the number 12 , The veterinary cutting set for cutting with the liquid jet includes a source of pressurized fluid, not shown, and the applicator 2 coming from a nozzle 3 is completed, with a thickness of the pressurized liquid jet of 0.5 mm, as shown in the figure. Before cutting the claw 4 the hoof becomes the lower leg with a Hoof hoof in the jig 1 stabilized, and the claw 4 is by means of the pressurized liquid jet 5 cleaned; Alternatively, water is used at a purge pressure of 2 MPa. Alternatively, disinfectant is added to the water. The physical diagnostics of the claws and hooves is performed based on ultrasonic or electromagnetic waves, and the interface between the claw and the hoof is determined. Subsequently, the cutting plane is measured with the pressure of 12 MPa. Alternatively, the focusing is performed by laser. Then the claw separates 4 from the hoof in the cutting plane by the action of the hydraulic fluid jet 5 , wherein water with the operating pressure of 120 MPa and a flow rate of the hydraulic fluid of 7.5 l / min is used. The feed rate of the hydraulic fluid jet 5 is 15 mm / min. Alternatively, an abrasive is added to the water. The following result was achieved. The claw thickness was removed with a section thickness of 8 mm. The cut length of the claw was 32.8 mm, and the depth of cut of the claw was 18.9 mm. The cutting time was 13.0 s.

Example 3

This example describes claw care of ungulates using a veterinary cutting set for cutting with the liquid jet in a water medium according to all five steps described. In the attached table it is the measurement of the cutting with the number 8th , The veterinary cutting set for cutting with the liquid jet comprises a source of pressurized fluid, not shown, and the applicator 2 coming from a nozzle 3 is completed, with a thickness of the pressurized liquid jet of 0.8 mm, as shown in the figure. Before cutting the claw 4 the hat becomes the lower leg with a Hoof hoof in hoop 1 stabilized, and the claw 4 is by means of the hydraulic fluid jet 5 cleaned. Alternatively, water with a purifying pressure of 3 MPa is used. Alternatively, disinfectant is added to the water. The physical diagnostics of the claws and hooves is performed based on ultrasonic waves, and the interface between the claw and hooves is determined. Subsequently, the cutting plane is measured with the pressure of 60 MPa. Alternatively, the focusing is performed by laser. Subsequently, the claw 4 separates from the hoof in the cutting plane by the action of the pressurized liquid jet 5 ; Water with the operating pressure of 150 MPa and a flow rate of the pressure fluid of 8.3 l / min is used. The feed rate of the hydraulic fluid jet 5 is 17 mm / min. Alternatively, an abrasive is added to the water. The following result was achieved. The claw thickness was removed with a section thickness of 12 mm. The cut length on the claw was 33.3 mm, and the cutting depth of the claw was 21.9 mm. The cutting time was 120.24 s.

Example 4

This example describes claw care of hoofed animals (cattle) by means of a veterinary cutting kit for cutting with the jet of liquid in an air medium according to only three of the five steps described. In the attached table, it is the measurement of the number 6 cutting already described in Example 1 is. The difference is that the cleaning step is eliminated in terms of the long, dry environment. Also, the step of physically diagnosing the claw and the hoof is omitted because of the unavailability of technical diagnostic equipment. The determination of the interface between the claw and the hoof is only performed optically by the surgeon, i. H. of non-technical means.

Example 5

This example describes claw care of ungulates (cattle) by means of a veterinary cutting kit for cutting with the jet of liquid in an air medium according to only four of the five described steps. In the attached table, it is the measurement of the cutting number 6 already described in Example 1 is. The difference is that the step of physically diagnosing the claw and the hoof is omitted due to the unavailability of technical diagnostic equipment. The determination of the interface between the claw and the hoof is only performed optically by the surgeon, i. H. of non-technical means.

Industrial use

The claw care of ungulates by means of a veterinary cutting kit for cutting with the liquid jet according to this invention has its use in veterinary medicine. The present invention offers a wide field of application in terms of the mobility, flexibility and variability of the device directly in the field, in agricultural cooperatives with the breeding of cattle without distinction whether it is a milk breed (eg Holstein cattle ), combined breeding (eg Pinzgauer cattle) or meat-raising (such as Limousin cattle), agricultural cooperatives with the breeding of sheep, goats or mixed livestock, breeding stations of cattle, sheep and goats, alpine huts / Shepherds or breeding stations of ungulates, mutti, zoos, cattle livestock or breeding stations of protected breeds.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 9107259 A1 [0003]
• WO 2013164409 A1 [0005]
• US Pat. No. 2,759,266 A [0005]
• US 2002123020 [0005]
• EP 1676535 A1 [0006]

Cited non-patent literature

• Council Directive 98/58 / EC of 20 July 1998 [0007]
• ES L 221, 8.8.1998, p. 23 [0007]
• COM (2012) 6 final / 2 Brussels 2012/02/15 [0007]
• Reszler, H :. The nuts and bolts of a successful, functional claw care, available at: www.klauenpflege.de [0008]

Claims (4)

Veterinary cutting kit for claw care by means of a liquid jet, characterized in that it consists of a source of pressurized fluid and an applicator ( 2 ) coming from a nozzle ( 3 ) is completed, wherein the applicator is movably mounted in a guide device. Veterinary cutting set according to claim 1, characterized in that the guide device adjustable relative to the stabilizing and tensioning device ( 1 ) or the cage is stored. Veterinary cutting set according to claims 1 and 2, characterized in that the guide device is a linear guide bar or rotatable journal bearing. Veterinary cutting set according to claims 1 and 2, characterized in that the guide device is provided with a protective shield.

Images