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    • 专利摘要:
    The present invention relates to a system for collecting liquids flowing on the floor of an enclosure for rearing animals, comprising: (i) a floor covering (1), comprising: - a cover layer ( 2), made of a material capable of undergoing an elastic deformation and comprising an upper surface (21) adapted to support animals, - conduits (3) formed under said cover layer (2), adapted to receive a liquid and - through orifices (4), formed through said cover layer (2), for the flow of liquids from said upper surface (21) to said conduits (3), (ii) means for the collecting liquids circulating within said conduits (3), and (iii) means (10) for urging liquids within said conduits (3), so as to generate said flow of said liquids towards said collection means.
    公开号:FR3032330A1
    申请号:FR1551102
    申请日:2015-02-11
    公开日:2016-08-12
    发明作者:Jean-Vincent Bioret
    申请人:Bioret Agri Logette Confort SARL;
    IPC主号:
    专利说明:

    [0001] TECHNICAL FIELD RELATING TO THE INVENTION The present invention relates to a system for collecting liquids flowing on the floor of an enclosure for rearing animals, for example cattle (dairy cattle and / or bovine animals). meat), in particular for the arrangement of the traffic corridors of such a breeding enclosure. TECHNOLOGICAL BACKGROUND The comfort of animals is a determining parameter in the performance of a farm, which in particular influences the health, food intake, fertility and longevity of animals. This comfort of animals is governed in particular by the legal obligations set out in the Amsterdam (1999) and Lisbon (2009) Treaties relating to the Protocol on the Protection and Welfare of Animals, as well as by the adoption of of the second European strategy for animal welfare. In a stable, this comfort implies in particular a fast and efficient evacuation of the droppings generated by the animals. This manure management must indeed make it possible to reduce the gas emissions and the proliferation of bacteria in the breeding enclosure, and consequently to improve the ambient conditions and the sanitary performances. These droppings are more likely to make the ground slippery, with the risk of falling and injury that result. Several waste disposal systems coexist to this day: mechanical drainage systems, "watershed" systems and grating systems. In the context of a "mechanical evacuation" solution, the droppings present on the ground are scraped once or several times a day by a scraper device called a planer (operated by a tractor or by automatic means), to be brought 'to a collection pit located outside the breeding building. However, the separation of urine and feces is not optimal within such an evacuation system, thus constituting an important source of ammonia. In addition, the installation of such an evacuation system involves major structural work, which is difficult to envisage in an existing breeding enclosure. With a "flush", flushing liquid vigorously empties the waste into a gutter and then to an outdoor pit. However, again, the separation of urine and feces is not optimal within such an evacuation system, still constituting a major source of ammonia. In addition, the implementation of such a system leads to significant humidification of the floors of the breeding enclosure, likely to generate problems of adhesion and hygiene. More generally, excessively moist flooring is likely to cause sanitary problems in the feet of animals, including lameness, constituting a major health problem in livestock.
    [0002] Of the infections causing lameness, digitized dermatitis, also called Mortellaro Disease, is the most problematic. There is therefore a need for technical solutions allowing a reduction of the humidity of the bearing surfaces on the floor of the rearing enclosures with an effective evacuation of the liquids (in particular the urine), advantageously without necessitating important work, so as to improve the conditions of adhesion and the sanitary conditions of the animals. There is also an interest in simple solutions that allow some separation of urine and faeces, so as to limit ammonia production in breeding enclosures. OBJECT OF THE INVENTION In this context, the Applicant has developed a new system for the collection of liquids flowing on the floor of an enclosure for the breeding of animals, aimed at improving hygiene conditions in a breeding enclosure, in particular through optimal management of liquids. The collection system according to the invention is characterized in that it comprises: (i) a floor covering, comprising: a cover layer, made of a material capable of undergoing elastic deformation and comprising a surface upper adapted to the support of the animals, - conduits formed under said cover layer, adapted to receive a liquid, and - through orifices, formed through said cover layer, extending between the upper surface of said cover layer and said conduits, for the flow of liquids from said upper surface to said conduits, (ii) means for collecting liquids circulating within said conduits, and (iii) means for urging liquids to within said conduits, so as to generate the flow of said liquids towards said collection means.
    [0003] Such a system allows automatic and continuous removal of liquids (especially urine) from the upper bearing surface to said ducts. The upper bearing surface of the flooring thus remains permanently relatively moist, thus contributing to improving the qualitative characteristics of the soil in terms of adhesion and hygiene. This structure also allows a rapid and relatively effective separation of urine from feces, to limit the production of ammonia within the breeding enclosure. Indeed, the urine will tend to be evacuated to the ducts, for their training by the thrust means; the faeces will tend to remain on the upper surface of support, for evacuation by mechanical scraping (for example with a plane) or by scraping aqueous (eg hydrocure). Such a system according to the invention is further adapted to be implanted in a simple manner within a new or existing breeding enclosure (improvement or renovation), without requiring the implementation of major structural work. The lower surface support less wet also allows the hoof of cattle to be harder, which contributes to the health of the foot of these animals and helps to reduce the risk of slipping animals.
    [0004] 3032330 4 In this less humid and less productive ammonia environment, bacterial levels and proliferation peaks are kept low, making foot disease control much simpler. Such a collection system is particularly interesting in the case of a floor covered with straw. Indeed, the cover layer keeps the solids (including straw and feces) at its upper surface; thus, these solids are scrapable for cleaning said cover layer. The thrust means is thus effectively protected within the conduits, without risk (or at least reducing the risks) of interacting with the solids so as to ensure an optimal circulation phenomenon for the liquids in the respective ducts. According to other advantageous features of realization, which can be taken independently or in combination: the floor covering comprises a receiving surface covered by said covering layer, which receiving surface comprises support portions which are separated from each other grooves each having an upper aperture closed by said cover layer to form said conduits; in this case, preferably, the cover layer consists of a sheet attached to said receiving surface; in practice, such a receiving surface is advantageously constituted by a screed made of bitumen or concrete, in which said grooves are formed, or by a set of longitudinal members which are secured to a support surface, in a juxtaposed manner and while maintaining a spacing defining said grooves, or a belt having a base having a lower face is intended to rest on a support surface, and an upper face is provided with projecting structures arranged at a distance from each other, which delimit them 30 said grooves and whose free face forms the bearing portion; the material of the covering layer is chosen from elastomeric materials or elastomeric plastic materials; - The upper surface of the cover layer has a relief to promote adhesion; The covering layer has a thickness of between 2 and 8 mm; The through-holes of the cover layer have an elongated shape, with a width and a length of between 5 mm and 30 mm; According to a particular embodiment, the means for pushing liquids comprise: 5 - drive members which are each reported in one of said conduits, which drive members each comprise a thrust surface which is adapted to push the liquids present within the associated conduit, and - means for the operation of said drive members within their respective conduits, so that said thrust surface generates said liquid flow within its conduit. In this case, preferably, the drive members are distributed along the length of at least one elongate body, and the operating means consist of means for the translational maneuvering of said at least one elongate body, in one-way direction. or in oscillation, or at least one of the drive members consists of a screw-shaped member forming a helical thrust surface, and the actuating means consist of means for the rotational operation of said at least one actuator member. training in the form of screws.
    [0005] Still in general: the collection system further comprises means for feeding the conduits with a treatment liquid; the ducts are rectilinear and extend parallel to one another; in this case, the ducts advantageously each have a width of between 15 and 50 mm and a height of between 15 and 50 mm, and the ducts are spaced with a width of between 50 and 500 mm; - The collection system also comprises means for scraping the upper surface of the cover layer.
    [0006] The present invention also relates to a breeding enclosure equipped with a collection system according to the invention. Preferably, this breeding chamber comprises a circulation corridor having a longitudinal axis and covered by a floor covering; and the conduits of said floor covering are arranged in parallel, or at least approximately parallel, with respect to said longitudinal axis. DETAILED DESCRIPTION OF THE INVENTION The present invention will be further illustrated, without being in any way limited, by the following description of various particular embodiments, with reference to the accompanying drawings in which: FIG. 1 is a diagrammatic and a vertical sectional plane, a part of a liquid collection system according to the invention, the floor covering of which comprises ducts which are formed by a cover layer attached to a resilient carpet provided with grooves and in which are longitudinal chambers sealed; FIG. 2 illustrates the collection system of FIG. 1, the leaktight longitudinal chambers of which contain a fluid intended to participate in the elastic deformation of the upper bearing surface; FIG. 3 is a view from above of the floor covering illustrated in FIGS. 1 and 2, schematically showing the upper bearing surface formed by the covering layer and at the level of which the through orifices emerging in the ducts are made; collection ; FIG. 4 is a view from above of the floor covering illustrated in FIGS. 1 and 2, the cover layer of which is not shown to visually access the means for pushing liquids which are of the chain type with elements added to forming the driving members 25 of the liquids; - Figure 5 shows, schematically and in a vertical sectional plane, another embodiment of the floor covering whose cover layer is attached to a set of single-material longitudinal members secured to a support surface; FIG. 6 illustrates an alternative embodiment of the floor covering according to FIG. 5, in which the longitudinal members are bi-material; - Figure 7 shows schematically and in a vertical sectional plane, yet another embodiment of the floor covering, the cover layer is attached to a yoke in which are formed directly the grooves; FIG. 8 schematically represents, in a vertical sectional plane, still another embodiment of a floor covering whose grooves now include a bottom face with an arcuate section; Fig. 9 is also a top view of the floor covering according to Figs. 1 to 8, the cover layer of which is not shown for visually accessing the means for pushing liquids which consist of ropes; FIG. 10 is a top view of the flooring according to FIGS. 1 to 8, the cover layer of which is not shown for visually accessing the means for pushing the liquids which comprise manoeuvrable drive members according to FIGS. an oscillating movement; - Figure 11 is always a top view of the flooring 15 according to Figures 1 to 8, the cover layer is not shown to visually access the means for pushing liquids which consist of rotatably operable screws. The collection systems according to the invention, shown in FIGS. 1 to 11, are particularly suitable for equipping an enclosure for the breeding of animals. As developed below, such collection systems have the advantage of collecting liquids flowing on the ground and evacuate them, so as to offer a relatively dry bearing surface (or at least not having a humidity excessive) for the feet of animals, and therefore 25 more healthy and safer. By "animals" is meant, in particular, cattle (in particular dairy cows or beef cattle), pigs, or any other farmed animal (sheep, poultry, rabbit, horse, etc.). Such a breeding enclosure (not shown) consists of a building delimited by a frame adapted to the desired breeding (for example a barn in the case of cattle). Flooring The collection system according to the invention comprises a floor covering 1 which covers at least part of the floor of this breeding enclosure.
    [0007] In particular, the floor covering 1 is advantageously located at the level of the circulation corridors C (FIG. 4) which are used by the animals running between the different functional spaces of the breeding enclosure (for example cubicles, treatment rooms, etc.). milking, etc.).
    [0008] This floor covering 1 is capable of recovering liquids flowing on the floor and separating them from solids (for example feces, straw, etc.) continuously and by gravity. For this, as illustrated in particular in FIGS. 1, 2 and 5 to 8, the corresponding floor covering 1 comprises: a covering layer 2 made of a material capable of undergoing elastic deformation and comprising a top surface; 21 adapted to the support of animals (forming the upper surface of this floor covering 1), - ducts 3 formed under said cover layer 2, 15 adapted to receive liquids, and - through holes 4, formed through said cover layer 2, extending between the upper surface 21 of said cover layer 2 and said conduits 3, for the flow of liquids by gravity from said upper surface 21 to said conduits 3.
    [0009] This floor covering 1 can be made: - mono-material, for example the same material forming the covering layer and defining the conduits 3, or - multi-materials, for example a first material forming the cover layer 2 and a second material forming a receiving surface 5 receiving this cover layer 2. In this case, the cover layer 2 consists of a sheet (or strip) which covers a receiving surface 5 having a plurality of support portions 51 separated therefrom. each other by grooves closed by the cover layer 2 to form the ducts 3 above.
    [0010] For the sake of simplification, the ducts and the corresponding grooves are designated by the same numerical mark "3".
    [0011] The ducts / grooves The grooves 3 are groove-like structures or gutters which are underlying the cover layer 2 and which are closed by the cover layer 2.
    [0012] These grooves 3 are capable of collecting (by gravity) and containing the liquids flowing on the floor covering 1, so that these liquids stagnate as little as possible on the upper bearing surface 21 of the cover layer 2 By "liquids" is meant in particular the liquid excrements produced by the animals of the farm, in particular their urine. For this, as described below with reference to FIG. 1, each groove 3 is delimited by two lateral faces 31 which are connected by a bottom face 32 and which delimit an upper opening 33 opening upwards, under the cover layer 2.
    [0013] Each groove 3 is additionally terminated by two open ends 34 (only one of them is visible in FIG. 4), allowing liquid flow and evacuation. The two lateral faces 31 extend here in parallel, or at least approximately parallel, with respect to each other.
    [0014] In FIGS. 1 to 7, the bottom face 32 consists of a plane bottom face extending between the two lateral faces 31. Each side edge of the bottom face 32 is here connected to a lower edge of a lateral face 31 via a chamfer 35 (or cutaway) so as to limit the angles likely to retain soil. These chamfers 35 extend at an angle of between 40 ° and 50 ° (for example of the order of 45 °), with respect to the bottom face 32. Alternatively, as illustrated in FIG. the bottom face 32 of the grooves 3 may have a concave curved appearance, for example an arcuate section. In addition, these grooves 3 advantageously have particular dimensions to allow efficient collection of liquids. In this respect, as illustrated in FIG. 1, each groove 3 can be defined by two dimensions: a width A, corresponding to the distance separating its two lateral faces 31, and a depth P corresponding to maximum distance separating, on the one hand, its bottom face 32 and, on the other hand, the support portions 51 5 adjacent. In the present case, the grooves 3 advantageously each have: a width A of at most 50 mm, preferably between 15 and 50 mm, and a depth P of at least 15 mm, advantageously between 15 mm. and 50 mm. The grooves 3 are advantageously regularly spaced, relative to each other, on the floor covering 1. In other words, these grooves 3 are advantageously evenly distributed on the floor covering 1.
    [0015] For their part, the support portions 51 of the receiving surface 5 extend between two grooves 3, and advantageously in the same plane or at least approximately in the same plane. These support portions 51 preferably have a horizontal flat surface (Figure 1) or a curved convex surface (Figure 2).
    [0016] These support portions 51 preferably have a width L of between 50 and 500 mm, and more preferably between 10 and 300 mm. Preferably, as shown in Figures 3 and 4, the grooves 3 are straight and extend parallel to each other. Each groove 3 thus comprises a longitudinal axis 3 ', extending parallel to its lateral faces 31; the longitudinal axes 3 'of the different grooves 3 extend parallel to each other. The grooves 3 are distributed over the width of the floor covering 1; and these grooves 3 extend over the entire length of the floor covering 1. The grooves 3 thus delimit between them a plurality of support portions 51 which each have the shape of a straight strip. Each support portion 51 thus has a longitudinal axis 51 'extending parallel to the longitudinal axis 3' of the grooves 3 and the longitudinal axis 51 'of the other support portions 51 (Figure 4).
    [0017] On the cover layer On its side, the attached cover layer 2 comprises the upper surface 21 and a lower surface 22 covering the receiving surface 5.
    [0018] Due to the discontinuous receiving surface, the cover layer 2 comprises different parts: - first parts 23 which each cover one of the support portions 51 of the receiving surface 5, and - second parts 24, connecting two support portions 51 above the grooves 3 (in "suspension" between two support portions 51), which each close the upper opening 33 of one of the grooves 3 to form together one of the aforementioned ducts 3. These first portions 23 and second portions 24 of the covering layer 2 each have the shape of a straight strip.
    [0019] Each part 23, 24 thus comprises a longitudinal axis 23 ', 24' which extends parallel to the longitudinal axis 51 'of the support portions 51 and to the longitudinal axis 3' of the grooves 3, respectively (FIG. 3). . The cover layer 2 is made of a material selected from: - elastomeric materials, ie for example natural rubber, "synthetic natural" rubber (or synthetic poly-isoprene), polybutadiene or styrene-butadiene, or plastic materials or thermoplastic elastomers (TPE), namely for example PVB (polyvinyl butyral), ABS (acrylonitrile butadiene styrene) / SBR (styrene-butadiene), PP (polypropylene) / EPDM (ethylene-propylene-diene) monomer), TPU (Polyurethane TPE). The thickness of this cover layer 2, corresponding to the distance separating its upper surface 21 and lower surface 22, is between 2 and 8 mm.
    [0020] For the evacuation of liquids, the through orifices 4 are formed through this cover layer 2, and are distributed at the second portions 24 facing the grooves 3. Each through-orifice 4 thus has two ends (FIG. ): - an upper end 41, opening at the upper surface 21 of support, and 3032330 12 - a lower end 42, opening at the lower surface 22 and at one of the grooves 3. For optimum collection of liquids, each through hole 4 has an elongated shape, for example oblong.
    [0021] Each through hole 4 extends the full width (or at least approximately the entire width) of the second cover layer portion 2 and the underlying groove 3. This through hole 4 has a longitudinal axis 4 'extending perpendicularly to the longitudinal axis 24' of the portion 24 of the corresponding cover layer 2 (Figure 3). For example, the width and length of each through hole 4 are between 5 mm and 30 mm. The distribution and the density of these through holes 4 are adapted to each second part 24 of the cover layer 2.
    [0022] This distribution and this density can in particular take into account the density of animals in the breeding building. The upper surface 21 of this cover layer 2 advantageously comprises a relief to promote adhesion (not shown). The non-slip relief consists, for example, of a one-piece relief selected from the reliefs used in floor coverings conventionally used in livestock buildings, for example diamond-shaped projecting elements provided with bosses. The upper surface 21 still advantageously comprises a layer of abrasive material, in order to allow and / or promote the wear of the hooves and the health of the animals' feet. To obtain this layer of abrasive material, the abrasive material is advantageously mixed with the material constituting the cover layer 2. The abrasive material consists for example of particles of quartz, metal or any other material having an abrasive power on the hoof of cows. This abrasive material is added before, during or after the manufacture of the cover layer 2.
    [0023] On the receiving surface In general, the structure of the receiving surface 5, participating in forming the floor covering 1 according to the invention, can take different forms of embodiment.
    [0024] First Embodiment of the Receiving Surface According to a first embodiment illustrated in FIGS. 1 and 2, the receiving surface 5 is constituted by the upper face of a mat 6 made of elastomeric material, intended to be attached to a surface. support surface S of the breeding enclosure. The receiving surface 5 of this mat 6 is thus intended to undergo elastic deformation, participating in the comfortable movement of animals. The support surface S of this breeding chamber advantageously consists of a concrete screed (or slab), optionally reinforced with a wire mesh, or bitumen. This mat 6 consists of an elongated strip comprising a base 61 of which: a lower face 611 is intended to rest on the support surface S, an upper face 612 is provided with projecting structures 62 arranged at a distance from each other, and the peripheral contour is delimited by two lateral edges 613 and by two end edges 614 (only one of these end edges 614 is visible in FIG. 4).
    [0025] The protruding structures 62 each have an elongate shape, of the spar or chevron type, regularly distributed over the width of the base 61 and extending parallel to its side edges 613 (FIGS. 1 and 2). These protruding structures 62 each comprise: a lower face 621 which is secured to the upper face 612 of the base 61, a free upper face 622 forming one of the support portions 51, and two lateral faces 623 forming the lateral faces 31 of the grooves 3.
    [0026] Each projecting structure 62 advantageously has a height P of between 15 and 50 mm and a width L of between 50 and 500 mm. Two juxtaposed projecting structures 62 delimit, between them, one of the grooves 3 of the carpet 6.
    [0027] These grooves 3 are again evenly distributed over the width of the base 61 and extending parallel to its side edges 613 (FIGS. 1 and 2). These grooves 3 advantageously extend over the entire length of the belt 6 (between the end edges 614 of its base 61).
    [0028] The exposed portions of the upper face 612 of the base 61, between two protruding structures 62, form the bottom faces 32 of the grooves 3. The support portions 51 are advantageously adapted to undergo deformation in depression, that of at least 1 mm, and preferably between 1 and 5 mm, during the support of the foot of the animal or a person. "Depression" means in particular a reduction in thickness between the support portion 51 and the lower face 611 of the base 61, by bringing the respective surfaces. For this, the belt 6 is advantageously made in at least one material capable of undergoing an elastic deformation chosen from: - elastomer materials, namely for example natural rubber, "synthetic natural" rubber (or synthetic poly-isoprene) polybutadiene or styrene-butadiene, or thermoplastics or thermoplastic elastomers (TPE), for example PVB (butyral polyvinyl), ABS (acrylonitrile butadiene styrene) / SBR (styrene-butadiene), PP ( polypropylene) / EPDM (ethylene-propylene-diene monomer), TPU (polyurethane TPE). This carpet 6 can be made: - mono-material, or 30 - multi-materials, for example a first material forming the base 61 and a second material forming the protruding structures 62. In order to further optimize this elastic deformation phenomenon, each protruding structure 62 advantageously incorporates a sealed longitudinal chamber 625 intended to contain a fluid (FIG. 2).
    [0029] This sealed longitudinal chamber 625 extends over the entire length, or at least approximately the entire length, of the associated projecting structure 62. This sealed longitudinal chamber 625 is advantageously centered on the longitudinal axis 62 'of the associated projecting structure 62; it extends in addition to at least half or even three quarters of the width of the corresponding projecting structure 62. The fluid consists of a gas (air for example), a liquid (water for example), a gel, or their mixture.
    [0030] Each sealed chamber 625 advantageously comprises an access duct (not shown), in particular for filling or emptying. Once the fluid-tight longitudinal chambers 625 are filled by the fluid, the support portions 51 advantageously have a slightly convex convex shape (FIG. 2).
    [0031] The first portions 23 of the covering layer 2, covering the support portions 51, then also have a convex slightly convex shape (FIG. 2). This structural feature then promotes the movement of liquids towards the second portions 24 of the cover layer 2 located on either side, thereby participating in the flow of these liquids through its through holes 4 to the grooves 3. For its part, the base 61 has for example - a thickness of between 2 and 10 mm, a width which is advantageously between 300 and 3000 mm, and a length of at least 3 m long.
    [0032] In the direction of its thickness, the base 61 here comprises two layers, one upper 615 and the other lower 616, between which is reported a reinforcing interlayer 617. The reinforcement interlayer 617 is selected from textile fibers, metal or any other product providing stability and / or resistance to elongation. This reinforcing intermediate layer 617 consists for example of a textile reinforcing reinforcement, advantageously made of a material chosen from nylon, cotton, polyester, polyamide or any other reinforcing textile.
    [0033] This carpet 6 can also be adapted to direct parasitic voltages and currents coming from the ground or the subsoil, to grounding points T located outside the breeding enclosure. For this, the belt 6 advantageously comprises an array of 5 electrical conductors 7 intended to be electrically connected between, on the one hand, the longitudinal sealed chambers 625 formed in the projecting structures 62 and, on the other hand, said earthen connections T Such a carpet 6, before it is laid, is advantageously stored in the form of plates, and more preferably in the form of rolls.
    [0034] The latter embodiment in rolls has the advantage of allowing a simple and fast installation of the flooring in the breeding enclosure by unfolding; it also makes it possible to ensure optimum continuity of the grooves 3 for the efficient recovery of liquids at the ends of these grooves 3.
    [0035] These plates or rollers advantageously have a straight or rectilinear peripheral edge, or an assembly structure (puzzle type) facilitating their interlocking by interlocking with a complementary assembly structure. The base 61 has a width which is advantageously between 300 and 3000 mm, and more generally a width equal to the equipped traffic lane. Such a carpet 6 can be manufactured by assembling a set of superimposed parts, to form an assembly of the one-piece type, for example: by vulcanizing a set of parts made of elastomeric material, by gluing, by welding. In particular, in the case of vulcanization, in order to obtain each of the sealed longitudinal chambers 625, an intermediate part, for example a fireproof plastic sheet, is introduced between two of the parts to be vulcanized so as to prevent their local solidarity. More generally, the floor covering 1 can be manufactured by assembling a set of superposed parts, in particular the covering layer 2 and the carpet 6, to form a unitary-type assembly, for example: by vulcanizing a set of parts made of elastomeric material, - by bonding, - by welding.
    [0036] Second embodiment of the receiving surface According to a second embodiment illustrated in FIGS. 5 and 6, the receiving surface 5 is constituted by a set of longitudinal members 8 (or rafters) which are secured directly (in the absence a base 61) with the support surface S.
    [0037] These rails 8 are arranged in a juxtaposed manner, while preserving spaces between them which are intended to define the grooves 3 desired. The support surface S is again made of concrete or bitumen. Each spar 8 comprises a set of faces: - a lower face 81, intended to rest on the support surface S, - an upper face 82, intended to form a support portion 51 of the receiving surface 5, and - two side faces 83, each intended to form one of the lateral faces 31 of a groove 3.
    [0038] The bottom face 32 of the grooves 3 is formed by an exposed portion of the support surface S, located between two of the side members 8 juxtaposed. The fastening of each spar 8 with the support surface S is obtained for example by means of a mechanical fixing (pointing, riveting, etc.) or a chemical fixation (bonding in particular). According to a first variant embodiment illustrated in FIG. 5, each spar 8 is made in one piece, for example made of elastomeric material or plastic material similar to that described above in relation with FIGS. 1 and 2.
    [0039] According to a second variant embodiment illustrated in FIG. 6, each spar 8 consists of at least two superposed layers: an upper layer 86 forming the upper face 82 of the spar 8, and a lower layer 87 forming the lower face. 81 of the spar 8.
    [0040] These two superposed layers 86, 87 are advantageously secured by vulcanization, gluing, welding or mechanically (pointing or screwing). In the context of this second embodiment, the cover layer 2 is advantageously secured to the upper face 82 of the longitudinal members 8 by vulcanization, gluing, welding or mechanically (pointing or screwing). The advantage of this second embodiment is the ease of installation and the possibility of using used products of different -Io thicknesses. Third Embodiment of the Receiving Surface According to a third embodiment according to the invention illustrated in FIG. 7, the receiving surface 5 is constituted by a screed made of bitumen or concrete, in which the grooves are formed directly. 3. Such grooves 3 are for example obtained - by means of a die-type tool, having the negative relief, applied to the material being solidified, or - by mechanical grooving of an existing soil. In the context of this third embodiment, the cover layer 2 is secured to the receiving surface 5 by gluing, welding or mechanically (pointing or screwing). This joining is advantageously performed around the periphery, and at the central level, the cover layer 2, taking into account the type of scraping implemented.
    [0041] General In an alternative embodiment of the floor covering 1 according to Figures 5 to 7, it is still possible to cover the longitudinal members 8 (Figures 5 and 6) or the yoke (Figure 7) with an interlayer film made of elastomeric material fiber-reinforced, intended to conform to the receiving surface 5 and the grooves 3. The portions of the film, matching the grooves 3, are advantageously maintained by means of concave curved section profiles (for example in a circular arc) which are fixed mechanically in the bottom face 32.
    [0042] The film portions, between the grooves 3, form the support portions 51 covered by the cover layer 2. This film then marries the underlying surface of the cover layer 2 so as to form the support portions. 51 and the grooves 35 of the receiving surface 5. In practice, and in general for the various embodiments, the floor covering 1 is intended to constitute the floor of a breeding enclosure. In this case, the breeding enclosure comprises a set of spaces, including surrounding cubicles, at which animals are intended to circulate and park, still designated traffic corridors. A circulation corridor C, illustrated very schematically in Figure 4, advantageously comprises a longitudinal axis C '.
    [0043] And the floor covering 1 is preferably installed so that the longitudinal axis 3 'of its grooves 3 is arranged parallel to, or at least approximately parallel to, the longitudinal axis C' of the corridor C. This orientation is in particular useful for promoting the evacuation of the liquids contained in the grooves 3 to the collection means 9 equipping the breeding chamber and which are located at the end of the corridors C (Figure 4). Collection means 25 The collecting means 9 comprise in particular a pit 91 (or a recovery channel), installed at at least one of the two open ends 34 of the grooves 3 of the floor covering 1 (only one of them is visible in Figure 4). These collection means 9 may further comprise conduits 92 for the evacuation of liquids (only a few conduits 92 are shown in FIGS. 1 and 2 for the sake of simplification). The ducts 92 open, on an upstream side 921, in the grooves 3 and, on a downstream side 922, opposite the orifices of a grating (shown very schematically).
    [0044] In the case of a carpet-type floor covering 1 (FIGS. 1 to 4), the ducts 92 are advantageously formed in the thickness of its base plate 61. A slope is advantageously applied to the floor covering 1 (and in particular to its grooves 3), to promote the flow of fluids collected towards the collection means 9, namely the pit 91 (or recovery channel) or the conduits 92. Means for pushing the liquids 10 so as to generate an optimal flow of liquids towards these collection means 9, the collection system according to the invention further comprises means 10 for pushing liquids along the grooves 3 of the floor covering 1. In this case, these means of For this purpose, thrust 10 comprises drive members 101 which are attached in the grooves 3 and which are coupled with actuating means 102 to apply to them a movement intended to cause the movement of the liquids in one direction. adapted within these grooves 3.
    [0045] According to a first family of embodiments According to a first family of embodiments, as diagrammatically represented in FIGS. 4, 9 and 10, the thrust means 10 may comprise: driving members 101 which are each distributed over the length at least one elongate body 103 attached in and along the grooves 3, and - means 102 for the translational maneuvering of said drive members 101 within their respective grooves 3, so that each of said driving members 101 generates a liquid flow 30 within the associated groove 3. The elongated body 103 is parallel to the longitudinal axis 3 'of the associated groove 3. Each drive member 101 thus constitutes a kind of planer or scraper, able to push / push the liquids present within the associated groove 3.
    [0046] For this purpose, each drive member 101 has a peripheral edge 1011 which marries, at least approximately, the bottom face 32 and a lower part of the lateral faces 31 of the associated groove 3. This peripheral edge 1011, for example circular, comprises: a width corresponding, with the clearance, to the width A of the associated groove 3, or slightly less than the latter (for example between 90% and 100% relative to the width A of the groove 3), and a height less than the height P of the associated groove 3. The drive member 101 thus extends in the thickness and bulk of its groove 3 (Figure 1). Each drive member 101 further comprises, on a downstream side, a thrust surface 1012 which is capable of exerting said desired thrust on the liquid in the presence. These driving members 101 are for example spaced apart by a distance of between 50 and 1000 mm, advantageously adjustable according to the number of animals present and the type of excrement. These drive members 101 may take different embodiments, in particular depending on the type of translation maneuver applied to them.
    [0047] For example, the drive members 101 may be operated: in a direction parallel to the longitudinal axis 3 'of their respective grooves 3 and in a single direction of translation (upstream to downstream) within each groove 3. In this case, according to a first embodiment shown in Figure 4, the elongated body 103 consists of a chain consisting of several links 1031 assembled together. Some of these links 1031 comprise drive members 101 which consist of projecting projections (for example parts capable of limiting friction and of resisting abrasion, in particular of polyurethane or of high density polyethylene). These drive members 101 consist for example of disks which are oriented perpendicularly to the longitudinal axis 3 'of the associated groove 3.
    [0048] Alternatively, not shown, the drive members are formed directly by the links 1031 of said chain 103. At least some of the links 1031 then have for it projections which are arranged to form a thrust surface 1012. According to a second embodiment shown diagrammatically in FIG. 9 (only a groove 3 is shown for the sake of simplification), the elongate body 103 consists of a rope. The drive members 101 then advantageously consist of 10 nodes which are distributed along the length of said rope 103 and which each form one of the thrust surfaces 1012. To ensure the maneuver in one direction of translation in each groove 3, the thrust means 10 here comprise a single elongated body 103 (for example the chain or the rope), continuous, extending within each of the grooves 3 (FIG. 4). This elongate body 103 thus comprises active strands 1032 which each extend within one of the grooves 3 and which are connected by junction strands 1033 extending between two of the successive active strands 1032 (FIG. 4).
    [0049] The elongated body 103 further includes a return strand (not shown) for closing and maintaining said elongated body 103. In this case, the operating means 102 advantageously comprise a set of pulleys 1021 each cooperating with one of the strands. 1021 are in particular arranged here so that the elongate body 103 forms an assembly of return (or a general shape of S) within successive grooves 3. At least one of these pulleys 1021 is motorized to ensure the path of the elongate body 103. The speed of travel is for example between 1 and 10 m / min, in particular according to the concentration of animals per m2 and the type of dejection . Two successive active strands 1032 thus travel in opposite directions with respect to each other.
    [0050] In other words, an active strand 1032 of a groove 3 travels from a first end to a second end of the floor covering 1, and vice versa for the active strands 1032 juxtaposed (as illustrated by the arrows in FIG. 4 ).
    [0051] The associated driving members 101 are thus intended to run successively along the length of each of the grooves 3 of the floor covering 1, from an upstream groove 3 (on the left in FIG. 4) to a downstream groove 3 (to right in Figure 4), before returning to the aforementioned upstream groove.
    [0052] The liquids are thus evacuated alternately at one of the two open ends 34 of the grooves 3, facing which are formed a pit or a recovery channel 91. In each groove 3, the liquid is circulated in one direction. identical to the direction of travel of the training members 101.
    [0053] Alternatively not shown, the thrust means 10 may further consist of a plurality of elongate bodies 103 which are each provided with drive members 101 arranged in series on their respective lengths. Each elongate body 103 then cooperates with a group of grooves 3 and with operating means 1021 to ensure its displacement in the corresponding grooves 3. For example, each elongate body 103 may comprise two active strands 1032 which each extend within two juxtaposed grooves 3 and which are connected by two junction strands 1033 extending between these two successive active strands 1032. The two successive active strands 1032 thus travel in opposite directions with respect to each other. Such an embodiment makes it possible to apply different speeds to each elongated body 103, taking into account in particular the quantity of material to be evacuated. It is thus possible to apply a higher speed to the elongated bodies 103 which are within the grooves 3 bordering cubicles. According to another variant (FIG. 10), the driving members 101 may be operated according to: a direction parallel to the longitudinal axis 3 'of their respective grooves 3 and a downstream-upstream oscillating movement (upstream to downstream) and downstream to upstream) within their respective grooves 3.
    [0054] Only the drive members 101 of a groove 3 are shown for the sake of simplification. In this case, the drive members 101, distributed over an elongate rigid body 103, each comprise two opposite surfaces: a downstream surface 1012 constituting the thrust surface capable of causing the flow of the liquid to be discharged from upstream to the downstream, and - an upstream surface 1013 which has a reduced (or zero) thrust phenomenon on the liquids during the downstream to upstream return movement. For this, the downstream surface 1012 extends for example in a plane perpendicular to the longitudinal axis 3 'of the associated grooves 3.
    [0055] And the upstream surface 1013 has for example a streamlined shape from downstream to upstream, for example dihedral or conical. To ensure such an oscillation maneuver, the operating means 1022 advantageously consist of a connecting rod / piston system. The speed of travel is for example between 1 and 10 m / min, adapted in particular according to the concentration of animals per m2 and the type of droppings. According to a second family of embodiments According to another family of embodiments, the drive members 101 can still be operated in rotation within their respective grooves 3 (FIG. 11). In this case, these drive members 101 each advantageously consist of a screw provided with a thrust surface 1012 which is helically shaped and which extends over all or part of its length.
    [0056] This screw 101 advantageously extends over the entire length of a groove 3. Alternatively, each groove 3 may comprise two screws 101, each extending over one half of its length and - from one of the two ends 34 of this groove 3.
    [0057] Here again, this drive member 101 of the screw type is part of a cylindrical peripheral configuration 1011 which marries, at least approximately, the bottom face 32 and a lower portion of the lateral faces 31 of the associated groove 3.
    [0058] This peripheral encumbrance 1011 has a circular section, the diameter of which corresponds, with the clearance, to the width A of the associated groove 3, or slightly less than the latter (for example between 90% and 100% with respect to the width Has groove 3). The drive member 101 thus extends in the thickness and bulk of its groove 3. The operating means 1023 then consist of means for rotating each of these drive members 101 around each other. an axis 102 'extending parallel to the longitudinal axis 3' of the groove 3 associated.
    [0059] These actuating means 103 consist for example of a geared motor and / or a motor driving a return of the type chains / belts. The rotational speed is for example between 10 and 40 revolutions per minute, depending on the concentration of animals per m2 and the type of excretion. Means for supplying treatment liquids In general, for efficient hygiene and optimum fluid evacuation, the collection system still advantageously comprises means for feeding the grooves 3 with a treatment liquid (not shown). These means of supply advantageously consist of means allowing a flow of the treatment liquid directly into the grooves 3, for example a device of the drip type.
    [0060] These feed means are then advantageously located on an upstream side of the grooves 3 (near at least one of its open ends 34), taking into account the direction of flow of the liquids. The treatment liquid contains, for example, bacteria of interest and / or a disinfecting agent.
    [0061] Scraping means Preferably, this collecting device also comprises means 11 for scraping the upper surface 21 of the cover layer 2 (shown schematically in FIG. 9).
    [0062] These scraping means 11 consist for example of a plane whose lower edge rests on the upper surface 21 of the cover layer 2. This plane is intended to be operated in translation along the length of the floor covering 1 to repel the materials. solids (feces, straw, etc.) present on this upper surface 21, to the collection means 9. These scraping means 11 may be selected from conventional means per se and known to those skilled in the art.
    [0063] Implementation In operation, the floor covering 1 is capable of receiving various organic materials, including droppings (urine, feces). The upper surface 21 of the floor covering 1 may be covered with straw.
    [0064] The floor covering 1 then allows the liquids to flow through the through holes 4, to the ducts 3, thus avoiding the accumulation of these liquids on the upper surface 21 of the cover layer 2 which thus remains relatively dry. The solids, especially feces and straw, remain on the upper surface 21 of the cover layer 2, so as to avoid mixing them with the liquid materials to limit the production of ammonia within the enclosure. breeding and also so as to prevent solids come clinging with the thrust means 10 to maintain optimum action on the circulation of liquids within the grooves. During cleaning of this floor covering 1, the cleaning liquid will also flow in these ducts 3, avoiding that the upper surface 21 remains wet excessively.
    [0065] 3032330 27 This phenomenon therefore allows animals to walk on a relatively healthy surface, with a reduced risk of falling and without moistening their feet. All the liquids flowing in the ducts 3 are then effectively discharged to the collection means 9 (in particular the pit 91 or the recovery channel) by the implementation of the thrust means 10 described above in relation to one another. 1 to 11. As mentioned, the drive members 101 are set in motion (in one direction, in oscillation or in rotation as the case may be) so as to generate the flow of the liquids towards the dedicated collection means 9 . The thrust means 10 thus allow the circulation and active evacuation of the liquids contained in the ducts 3, to prevent their stagnation and to limit the development of ammonia and microorganisms in the rearing chamber. For optimum cleaning of these ducts 3, the treatment liquid can be discharged via the aforementioned supply means. In general, the means for pushing the liquids described above can be suitably adapted within any of the floor coverings 1 constituting the collection system according to the invention. In a general manner, the floor covering 1 according to the invention thus allows a rapid and continuous evacuation of the liquids with respect to the upper support surface 21 and with respect to the breeding enclosure, which allows a maintenance effective in the dry state (or at least without excess moisture), thus limiting the hygiene problems encountered with the usual floor coverings. The floor covering 1 according to the invention also allows a certain separation of the liquids which flow in the ducts 3, with respect to the faeces and the straw which remain mainly on the upper surface 21, so as to avoid their mixing and to limit the production of ammonia within the breeding enclosure.
    权利要求:
    Claims (16)
    [0001]
    CLAIMS 1. A system for collecting liquids flowing on the floor of an enclosure for rearing animals, for example cattle, which collection system is characterized in that it comprises: (i) a floor covering (1), comprising: - a covering layer (2), made of a material capable of undergoing elastic deformation and comprising an upper surface (21) adapted to support the animals, - ducts (3) ) formed under said cover layer (2), adapted to receive a liquid, and - through orifices (4), formed through said cover layer (2), extending between the upper surface (21) of said cover layer (2) and said conduits (3), for the flow of liquids from said upper surface (21) to said conduits (3), (ii) means (9) for the collection of fluids circulating within said conduits (3), and (iii) means (10) for urging liquids within said conduits s (3), so as to generate said flow of said liquids towards said collection means (9).
    [0002]
    2. System according to claim 1, characterized in that the floor covering (1) comprises a receiving surface (5) covered by said covering layer (2), which receiving surface (5) comprises support portions ( 51) which are separated from each other by grooves (3) each having an upper opening (33) closed by said cover layer (2) to form said ducts (3).
    [0003]
    3.- System according to claim 2, characterized in that the cover layer (2) consists of a sheet attached to said receiving surface (5).
    [0004]
    4.- System according to any one of claims 2 or 3, characterized in that the receiving surface (5) is constituted by: - a fork made of bitumen or concrete, in which are provided said grooves (3), or - a set of longitudinal members (8) which are secured to a support surface (S), in a juxtaposed manner and while preserving a spacing defining said grooves (3), or 3032330 29 - a belt (6) comprising a base ( 61) of which a lower face (611) is intended to rest on a support surface (S), and an upper face (612) is provided with protruding structures (62) arranged at a distance from each other, which delimit between them said grooves (3) and 5 whose free face (622) forms the support portion (51).
    [0005]
    5. System according to any one of claims 1 to 4, characterized in that the material of the cover layer (2) is selected from elastomeric materials or elastomeric plastic materials.
    [0006]
    6. System according to any one of claims 1 to 5, characterized in that the upper surface (21) of the cover layer (2) comprises a relief to promote adhesion.
    [0007]
    7. System according to any one of claims 1 to 6, characterized in that the cover layer (2) has a thickness of between 2 and 8 mm. 15
    [0008]
    8. System according to any one of claims 1 to 7, characterized in that the through holes (4) of the cover layer (2) have an elongated shape, with a width and a length of between 5 mm and 30 mm. mm.
    [0009]
    9. System according to any one of claims 1 to 8, characterized in that the means (10) for pushing liquids comprise: - drive members (101) which are each reported in one of said conduits (3), which driving members (101) each comprise a thrust surface (1012) which is adapted to push the liquids 25 present in the conduit (3) associated, and - means (103) for the maneuver of said driving members (101) within their respective conduits (3), so that said at least one thrust surface (1012) generates said liquid flow within its conduit (3). 30
    [0010]
    10.- System according to claim 9, characterized in that: - the driving members (101) are distributed along the length of at least one elongated body (103), and the operating means (102) consist of means (1021, 1022) for translating said at least one elongated body (103), in a single direction or in oscillation; or at least one of the driving members (101) consists of a screw-shaped member forming a helical thrust surface (1012), and the operating means (102) consist of means (1023). for rotating said at least one drive member (101) in the form of a screw.
    [0011]
    11. System according to any one of claims 1 to 10, characterized in that it further comprises means for a supply of conduits (3) with a treatment liquid.
    [0012]
    12. System according to any one of claims 1 to 11, characterized in that the ducts (3) are rectilinear and extend parallel to each other.
    [0013]
    13.- System according to claim 12, characterized in that the ducts (3) each have: a width of between 15 and 50 mm and a height of between 15 and 50 mm, and that the ducts (3) ) are spaced from a width of between 50 and 500 mm.
    [0014]
    14. System according to any one of claims 1 to 13, characterized in that it further comprises means (11) for scraping the upper surface (21) of the cover layer (2).
    [0015]
    15.- Breeding chamber equipped with a collection system according to any one of claims 1 to 14.
    [0016]
    16. A breeding enclosure according to claim 15, characterized in that it comprises a circulation corridor (C) having a longitudinal axis (C ') and covered by a floor covering (1), and in that the ducts (3) of said floor covering (1) are arranged parallel to, or at least approximately parallel to, said longitudinal axis (C ').
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    同族专利:
    公开号 | 公开日
    FR3032330B1|2017-01-27|
    EP3255976A1|2017-12-20|
    WO2016128684A1|2016-08-18|
    EP3255976B1|2021-01-06|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB1246590A|1969-08-30|1971-09-15|Alfa Laval Ab|A device for cleaning manure passages in animal sheds|
    GB1395072A|1971-08-24|1975-05-21|Semperit Ag|Cattle stalls|
    DE19519088C1|1993-12-14|1996-09-19|Ferdinand Thomas|Equipment for removing dung from cattle stall|
    DE19601478A1|1996-01-16|1997-07-17|Gertrud Thomas|Manure removal device for a cattle shed with mechanically cleared manure intake channels|
    EP1719404A1|2005-05-04|2006-11-08|Bert J. Waybright|A system, apparatus and method for removing large animal waste from a floor|
    FR3066070B1|2017-05-12|2019-07-19|Bioret Agri-Logette Confort|SYSTEM FOR COLLECTING DEJECTIONS FLOATING ON THE GROUND OF AN ENCLOSURE FOR ANIMAL BREEDING, EG BOVINE|
    US11259499B2|2017-08-12|2022-03-01|Specialty Sales, LLC|Systems and methods for filling and flushing animal footbaths|
    WO2020167580A1|2019-02-14|2020-08-20|Customized Environmental Solutions Inc.|Auger cleaned inaccessible floor system|
    法律状态:
    2015-12-03| PLFP| Fee payment|Year of fee payment: 2 |
    2016-08-12| PLSC| Publication of the preliminary search report|Effective date: 20160812 |
    2016-12-01| PLFP| Fee payment|Year of fee payment: 3 |
    2017-12-01| PLFP| Fee payment|Year of fee payment: 4 |
    2019-12-02| PLFP| Fee payment|Year of fee payment: 6 |
    2020-11-16| PLFP| Fee payment|Year of fee payment: 7 |
    2022-01-14| PLFP| Fee payment|Year of fee payment: 8 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1551102A|FR3032330B1|2015-02-11|2015-02-11|SYSTEM FOR COLLECTING LIQUIDS FLUSHING ON THE GROUND OF AN ENCLOSURE FOR ANIMAL BREEDING|FR1551102A| FR3032330B1|2015-02-11|2015-02-11|SYSTEM FOR COLLECTING LIQUIDS FLUSHING ON THE GROUND OF AN ENCLOSURE FOR ANIMAL BREEDING|
    EP16707903.7A| EP3255976B1|2015-02-11|2016-02-11|System for collecting dejections flowing on the floor of an enclosure for raising animals|
    PCT/FR2016/050315| WO2016128684A1|2015-02-11|2016-02-11|System for collecting dejections flowing on the floor of an enclosure for raising animals|
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