RU2098951C1 - New-born calf nurser - Google Patents

Abstract

FIELD: animal farming. SUBSTANCE: calf nurser has nipple provided with opening and connected with colostrum container mounted on calf cage wall by means of flexible member. Nipple is divided by wall into lower and upper cavities. Upper cavity is separated from colostrum container by partition wall with axial opening and resilient membrane. Colostrum container is mounted on ring provided with flange. Membrane has valve mechanism for cutting off opening in nipple partition wall. Lower cavity is positioned below partition wall and serves feed discharge member and teat. Surfaces of partition wall and ring faced to colostrum container are made conical. EFFECT: increased efficiency by improved calf feeding conditions. 3 cl, 4 dwg

Description

 The invention relates to agriculture and can be used in dispensaries of maternity wards for cows and other animals on farms and complexes, in farm and individual farms.

 A well-known drinking bowl for newborn calves, containing a container for liquid feed connected to the nipple with a bypass valve, in which the float is located and the upper head of the rod connected to the nipple is fixed thereto, the float provided with a chamber inside which the upper end of the hose is located, and intake pipes, through which the camera is in communication with the container, and the input ends of the intake pipes are located under the float, and in the compartment of the upper hose there are side openings located in eh its generatrix (AS USSR N 1702995, BE N 1, 1992).

 The disadvantage of this drinker is its inconsistency with the physiological process of cow sucking by the calf, which is expressed in the absence of the ability to satisfy the needs of the calf in massage effects on the cow's udder. In addition, it does not provide a dosed, corresponding to the natural sucking process, colostrum consumption rate of 2-3 g per swallow.

 The nipple drinker for newborn calves adopted as a prototype is more perfect, including a nipple with an opening connected to a colostrum container, which is mounted on the wall of the calf cage with the possibility of its movement under the influence of instinctive shocks and vibrations of the calf by connecting the container to the cage by means of an elastic element (Ozhigov VP Equipment for feeding newborn calves. Mechanization and electrification of agriculture, N 2, 1992, p. 37-39).

 Its disadvantage is uncontrolled, which does not correspond to the physiological norm of 2-3 g for swallowing (Any A.S. Lebedko E.Ya. Cow calving in closed boxes. Achievements of science and technology of the agro-industrial complex, N 3, 1990, p.5; V. Mityushin B. Dyspepsia of newborn calves. - M. Rosagropromizdat, 1989) - the rate of consumption of colostrum, which is explained by the lack of a device for its dosed delivery.

 The present invention solves the problem of creating a device with a simple construction, providing the process of evaporation of colostrum to newborn calves, maximally simulating the process of sucking a cow by a calf as a single physiological act, by simulating the massage effects of the calf on the udder of a cow during sucking and providing a dosed, corresponding to the natural sucking process colostrum consumption rates of 2-3 g per swallow.

 This goal is achieved by a nipple drinker for newborn calves, containing a pacifier with a hole connected to the colostrum container, mounted on the wall of the cage for keeping the calf with the ability to move it in all directions under the influence of shocks and vibrations of the calf by connecting the container to the cage by means of an elastic element. The nipple itself is divided by a partition with an axial hole into two cavities, while the upper cavity, the volume of which is equal to or less than the volume of the lower cavity and corresponds to the physiological norm of the calf consuming colostrum for one swallowing, is separated from the colostrum tank, equipped with a valve for communicating with the atmosphere, the partition with an axial hole and an elastic membrane clamped along the peripheral edges, carrying a valve mechanism that overlaps the hole in the nipple septum, dividing it into two parts. The elasticity of the membrane and its design ensure isolation of the container from the upper cavity of the nipple when the membrane contacts the septum during rarefaction in the nipple cavities, equal to the minimum rarefaction in the calf’s mouth when the cow is sucked during the “rest” cycle and their communication with each other during transverse bending of the membrane during rarefaction in the lower cavity of the nipple, equal to the maximum vacuum in the calf's mouth with a suction stroke.

 The declared nipple drinker for newborn calves differs from the prototype in that the nipple is divided by a septum with an axial hole into two cavities, while the upper cavity, the volume of which is equal to or less than the lower volume and corresponds to the physiological norm of consumption of colostrum by the calf for one swallow, is separated from the colostrum capacity equipped with a valve for communicating with the atmosphere, a baffle with an axial hole and an elastic membrane clamped at the peripheral edges, carrying a valve mechanism that covers the hole in the nipple septum, dividing it into two cavities, and the elasticity of the membrane and its design ensure isolation of the container from the upper nipple cavity when the membrane adheres to the septum during rarefaction in the nipple cavities, equal to the minimum depression in the calf’s mouth when sucking a cow during the “rest” stroke, and their communication with each other during transverse bending of the membrane during rarefaction in the lower cavity of the nipple, equal to the maximum vacuum in the mouth of the calf with a suction stroke.

 The proposed nipple drinker for newborn calves is simple in design and allows you to completely simulate the process of sucking a cow with a calf as a single physiological act, providing a dosed colostrum consumption rate corresponding to the physiological norm and simulating its massage effects on the udder.

 The essence of the proposed nipple drinkers for newborn calves explain the graphic materials and the following description.

 In FIG. 1 shows a general view of the nipple drinker (side view), in FIG. 2, view A in FIG. 1 (the drinking can and the device for fixing it are not shown conditionally), in Fig. 3, section B-B in Fig. 1 with a membrane with holes (the can and the device for fixing it are not shown), in Fig. 4, section B- In figure 1 with a membrane with cut off segments (the drinking can and the device for its fixation are not conventionally shown).

 The nipple drinker for newborn calves includes a drinking can 1, which has a nipple 16 with a hole 17 for flanging 23. A baffle 12 with an axial hole and a membrane 13 are installed on the inner surface of the nipple 16 between the flanging 23 of the drinker 1 can and the tide 13. The partition 12 is made in the form of a flare ring. The surface of the septum 12, facing the inside of the drinking can 1, is made conical to ensure complete draining of the colostrum. With its surface of smaller diameter, the partition 12 is inserted into the neck of the drinking can 1, and its flanging is based on the flanging 23 of the drinking can 1. The rod 21 is connected to the membrane 13, the valve 14 is fixed at its end. In the tides 19, a partition is installed on the inner surface of the nipple 16. 15 with an axial hole, dividing the nipple 16 into the upper 20 and lower 18 cavities. The volume of the upper cavity 20 is equal to or less than the volume of the lower 18 cavity of the nipple 16 and corresponds to the physiological norm of the calf consuming colostrum for one swallowing of 2-3 g. For better colostrum drainage, the surface of the septum 15 facing the cavity 20 is made conical. The membrane 13 can be made round with a number of holes, the edges of which are spaced from its center at a distance greater than the radius of the axial hole in the partition 12 (Fig.1,3). The membrane 13 can be made in the form of a part of a circle with cut off from it from opposite sides equal in area, parallel to each other segments (figure 4).

 A lever 9 is fixed on the wall 11 of the cage for a newborn calf. In the groove 24 of the lever 9, a stud 10 is fixed with nuts, rigidly connected to the elastic element 8. The elastic element 8 can be made in the form of a spring, an elastic rod made of metal, rubber, plastic, etc. .d. The second end of the elastic element 8 is rigidly connected to the device for fixing the drinking can 1 with the nipple 16. The device for fixing the drinking can 1 with the nipple 16 is made in the form of a bracket 2, the ends of which are rigidly connected to the corner 26 and the hollow square 25. Through the hole in the corner 26 and squared 25 is thrust 7, articulated with an eccentric 6, rigidly connected, in turn, with the handle 5.

 At the bottom of the can of the drinking bowl 1, a tide 3 is made conical, open on both sides, in which a rubber cone valve 4 with a handle is installed.

 The proposed nipple drinker for newborn calves operates as follows. The cone valve 4, before filling the drinker can 1 with colostrum, by the handle, is inserted into the cone tide 3 in the drinker 1 so that the valve 4 handle is flush with the bottom of the drinker 1. When the valve 4 is inserted inside the tide 3, the drinker 1 is disconnected from the atmosphere. In the nipple 16, in its tides 19, a partition 15 is installed so that its conical surface faces the inside of the upper cavity 20. Then, on the tide 22 of the nipples 16, a membrane 13 is placed with a valve 14 fixed to it on the stem 21. A partition 12 is laid on the membrane 13 with an axial hole so that its conical surface faces the inside of the drinking can 1. After this, the nipple 16 is pulled over the flanging 23 of the drinking can 1. The membrane 13 is pinched between the tide 22 of the nipple 16 and the partition 12. The membrane 13 and thus over the entire surface adjacent to the partition 12.

 Then the operator with the help of the handle 5 turns the eccentric 6, thereby unclenching the bracket 2. The unloading of the bracket 2 is carried out using the rod 7, passing through the holes of the hollow square 25 and corner 26. Then, the drinking can 1 is inserted into the unfastened bracket 2 and turning the eccentric 6 with the handle 5 is clamped in the bracket 2. The degree of clamping of the drinking can 1 in the bracket 2 is regulated by lengthening or shortening with the thrust nut 7. The spatial position of the drinking can 1 is regulated by its location relative to the bracket 2 and lengthening or shortening with using stud nuts 10.

 After that, the operator pulls valve 4 by the handle from the tide 3 of the can - drinking bowl 1, thereby communicating it with the atmosphere. The membrane 13 at this moment adheres to the partition 12 over the entire surface, separating the can 1 from the upper cavity 20 of the nipple 16. When the membrane 13 is straightened, the valve 14 moves away from the partition 15, thereby communicating the cavities 18 and 20 of the nipples 16 with each other. Thus, at the initial moment, the pressure in the can of the drinking bowl 1, in the upper 20 and lower 18 cavities of the nipples 16 is equal to atmospheric.

 The configuration of the bracket 9 is selected so as to provide a vertical or slightly inclined position of the drinking can 1. In Fig. 1, a somewhat inclined position of the drinking can 1 is shown.

 In the calf’s mouth, when sucking a cow, the vacuum varies from 8 kPa to 30.5 kPa. This change of rarefaction in the calf’s mouth occurs within one cycle: it reaches 30.5 kPa during a sucking cycle, then drops to 8 kPa during a “rest” swallowing cycle (N. Petukhov, N. G. Litman, Patterns of physiological phenomena of sucking act in calves. Siberian Bulletin of Agricultural Science, N 1, 1974. p. 94-99).

 Therefore, when the calf grabs the nipple 16 and the sucking process begins, then during the sucking stroke, a vacuum of 30.5 kPa is created in his mouth, which extends to the lower 18 and upper 20 of the nipple cavity 16. And since there is atmospheric pressure in the drinker 1 then, under the action of the pressure difference, the membrane 13 will bend in the transverse direction and communicate with each other the can 1 and the upper cavity 20 of the nipple 16. Simultaneously with the bending of the membrane 13, the stem 21 with the valve 14 moves along with it, which will block the hole in the partition 14 and disconnect t m most top 20 and bottom 18 of the cavity 16 between the nipples themselves. When bending the membrane 13 colostrum through the axial hole of the septum 12 and through the holes in the membrane 13 (Fig.1, 3) or through the cut off edges of the membrane 13 (Fig.4) enters the upper cavity 20 of the nipple 16. In this case, the elasticity of the membrane 13 is selected such to ensure its bending during rarefaction in the lower cavity 18 of the nipples 16, equal to the maximum rarefaction in the calf’s mouth when sucking during the suction stroke, and its straightening and its fit to the septum 12 over the entire surface when rarefied in the lower 18 and upper 20 cavities of the nipples 16, equal to the minimum rarefied in the calf sucking mouth-stroke "rest" swallowing. Therefore, during the cycle of "rest" of swallowing, when the pressure in the calf's mouth decreases to 8 kPa, the membrane 13, due to its elasticity, overcoming the pressure of the atmosphere in the drinking can 1, straightens, thereby disconnecting the can 1 from the upper cavity 20 of the nipple 16. At the same time, together with the membrane 13, the valve 14 moves upward together with the stem 21, connecting the lower 18 and the upper 20 of the nipple cavity 16 with each other, and colostrum from the upper 20 cavity is poured into the lower 18 cavity. Then, during the suction stroke, the calf sucks through the opening 17 of the nipples 16 the volume of colostrum equal to the physiological norm of its consumption for one swallowing 2-3 g. At the same time, a vacuum is created in the cavities 18 and 20 of the nipples 16 equal to the rarefaction in the mouth of the calf with a suction stroke of 30.5 kPa as a result of which the membrane 13 bends, communication between the drinking can 1 and the upper 20 of the nipple cavity 16 with the simultaneous separation of the upper 20 and the lower 18 of the nipple cavities 16. Moreover, from the drinking can 1 to the upper cavity 20 and the nipples 16 portion of mo a coliform equal to the physiological norm of colostrum consumption per swallow. Then comes the “rest” swallowing cycle, in which the pressure in the calf’s mouth decreases to a minimum of 8 kPa, as a result of which the membrane 13 straightens, and the valve 14 opens with the septum 15, that is, the cavities 18 and 20 of the nipples 16 communicate with each other and disconnect between each drinking can 1 and the upper cavity 20 of the nipple 16. In this case, a portion of colostrum from the upper 20 cavity is poured into the lower 18, which is sucked by the calf during the next sucking cycle. The process is repeated until the sucking reflex is fully satisfied and the calf is fully saturated.

 During sucking, the calf makes instinctive shocks and vibrations of the drinking can 1 with the pacifier 16. Since the device for fixing the drinking can 1 is connected to the lever 9, which is attached to the wall 11 of the cage for the newborn calf, by means of an elastic element 8, under the influence of these shocks and oscillations of the nipple 16 together with the can of the drinking bowl 1 has the ability to move with a certain force in all directions. This allows you to maximize simulate the massage effects of the calf on the udder of the cow during sucking.

 Thus, the proposed nipple drinker for newborn calves allows you to completely simulate the process of sucking a cow with a calf as a single physiological act, due to the dosed, corresponding to the physiological norm, rate of consumption of colostrum by the calf during one swallow and ensuring satisfaction of the instinct of massage effects on the cow's udder.

Claims (3)

 1. A nipple drinker for newborn calves, containing a container with a neck mounted on the wall of the cage with the possibility of its movement in all directions by means of an elastic element, and a pacifier with an opening connected to the neck of the container, characterized in that the nipple is provided with a partition with an axial opening that divides the nipple cavity into two interconnected and a container equipped with a valve for communicating with the atmosphere, parts: the upper, adjacent to the neck of the container, located above the partition, is dosing and equipped membrane with a valve mechanism mounted for closing an opening in the septum and placed on the flanged ring disposed in the neck of the container, the bottom located under the partition is kormovyvodyaschey and the nipple, the surface of the partition and the ring facing the container are made conical.  2. Drinking bowl according to claim 1, characterized in that the membrane is made in the form of a part of a circle with equal, parallel segments, cut off from it on opposite sides, while the membrane, when it is adjacent to the flanging ring, closes its opening.  3. The drinking bowl according to claim 1, characterized in that the membrane has openings whose edges are spaced from its center at a distance greater than half the radius of the opening of the flanged ring.

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