NL1038145C2 - STRAIN DEVICE FOR SOWS AND METHOD FOR DRAINING MANURE IN SUCH STRAIGHT DEVICE. - Google Patents

Description

Maternity device for sows and method for draining manure in such a maternity device

The invention relates to a maternity device for sows. The invention also relates to a method for discharging manure into a maternity device for sows, in particular by using a maternity device according to the invention.

In known sowing facilities for sows, a sow is placed on a slatted floor, whereby piglets thrown by the sow can in particular move on an adjacent slatted floor. The freedom of movement of the sow in the maternity device is thereby generally limited in order to minimize the risk of lying thrown piglets. The consequence of this limited freedom of movement of the sow is that the manure produced by the sow will fall concentrated to a location-specific part of the slatted floor. A part of the liquid components of the manure will then sag through the openings in the slatted floor, whereby these end up in a slurry cellar situated under the slatted floor. More or less solid components attach themselves to the slatted floor, so that they are removed manually, which is a labor-intensive and time-consuming process.

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An object of the invention is to provide an improved maternity device in which manure produced by the sow can be removed relatively efficiently from the slatted floor.

To this end, the invention provides a maternity device of the type mentioned in the preamble, comprising: a first grid floor part for supporting a sow, a second grid floor part for receiving manure produced by the sow, at least one drive element for displacing the second grid floor part relative to of the first slatted floor part, such that a free space for manure removal is created between the second slatted floor part and the first slatted floor part, and at least one manure displacer movable relative to the second slatted floor part adapted to move at least a part of it onto the second slatted floor part manure. In the maternity device according to the invention, the manure is thus substantially collected by a separate slatted floor part, the second slatted floor part, wherein this separate slatted floor part can be moved to create a, generally spit-shaped, free space for manure removal. By making use of a manure displacing element, referred to as a manure displacer, the separate slatted floor part can be at least partially stripped of manure. The mutual displacement of the slatted floor parts on the one hand and the displacement of the manure displacer on the other hand can be realized by the same drive element. However, it is also conceivable to use different drive elements for displacing the slatted floor parts or the manure displacer. The movability of at least one of the slatted floor parts has the further advantage that the manure mover can be positioned as far as possible out of sight, in particular at least partially under at least one of the slatted floor parts, whereby the construction of the maternity device is relatively compact and can be carried out efficiently. Moreover, shielding the manure mover can prevent the sow or piglets from hurting themselves and / or injuring the manure mover. By applying the maternity device according to the invention, the manure can be removed from the second slatted floor part in a (semi) automated manner. Grate floor part is understood to mean a floor part which comprises at least one passage opening (grid opening) for passage of smaller and liquid components. The maximum size of the grid openings is generally limited by law to 2 to 3 centimeters in order to be able to support piglets in a stable manner. The drive element will generally be arranged for displacing the second grid floor part relative to the first grid floor part between a closed state, in which the second grid floor part and the first grid floor part connect substantially to each other, and an opened state, in which the second grid floor part and the first the grid floor part is positioned at a mutual distance while enclosing the free space for manure disposal.

Although the drive element can be adapted to increase the position of the (mobile) first lattice floor part relative to the (stationary) second lattice floor part, the second lattice floor part will generally be mobile and be directly driven by the drive element, and (or the first slatted floor part may be stationary. The drive element is then generally adapted to lower at least a part of the second grid floor part relative to the first grid floor part. In a special embodiment, the manure displacer is positioned lower than the second slatted floor in the closed state of the second slatted floor part and the first slatted floor part, and is higher than the second slatted floor positioned in the opened state of the second slatted floor part and the first slatted floor part. The second grid floor part 5 can thereby undergo a linear, vertical movement. The space created between the two slatted floor parts in the opened state can be used for displacement of the manure mover. In this case, it is advantageous if the manure mover is adapted to move at least a part of manure located on the second slatted floor part towards the free space for efficient removal of the displaced manure. The manure can be pushed and / or pulled towards the free space. Also, the manure can be detached from the second slatted floor part in some other way and preferably be moved towards the free space. It is often advantageous if the manure displacer is arranged for scraping over an upper side of the second slatted floor part, in order to remove as much manure as possible from the second slatted floor part.

The manure mover will generally be movably coupled to the second slatted floor part. For this purpose, for example, a guide can be used. The mutual (movable) coupling guarantees a stable, controlled predefined displacement of the manure displacer relative to the second slatted floor part.

In an advantageous embodiment the drive element is coupled to the manure mover for displacement of the manure mover. In this way the drive element can be used for driving both the second slatted floor part and the manure displacer, which is generally advantageous from a structural point of view. The drive element does not necessarily have to consist of a single component, but can also be somewhat more complex in nature and then be regarded as a drive system. The drive system will then generally be of a pneumatic, hydraulic and / or electromechanical nature.

Usually, under the slatted floor parts, and in particular under the free space to be created between the slatted floor parts, a collection container, also referred to as manure cellar, will be positioned for receiving the manure removed via the free space of the second slatted floor part.

In an embodiment of the maternity device according to the invention, the maternity device comprises at least one operating element coupled to the drive element for controlling the drive element whether or not through a control unit. Operation of the drive element can be done manually or fully automatically, wherein the control unit can for instance be programmed for time-controlled control of the second slatted floor part and the manure displacer.

Typically, the maternity device will further comprise at least one third grid floor part positioned laterally with respect to the first grid floor part for supporting one or more piglets. A further description of this embodiment is included in Dutch patent specification NL1019311, the contents of which are incorporated herein by reference in the description of this patent specification.

In an advantageous embodiment, the maternity device comprises at least one detector for detecting the presence of a piglet on the second lattice floor part, whereby movement of the second lattice floor part can be prevented if the presence of a piglet is observed on or near the second lattice floor part. The detector can thereby comprise an optical sensor (eye). It is also conceivable that the detector comprises a heat sensor. Alternative sensors, such as weight sensors, can of course also be suitable for use in the maternity device according to the invention.

The invention also relates to a method for discharging manure into a maternity device for sows, in particular by using a maternity device according to the invention, comprising: A) from a closed state in which a first grid floor part for supporting a sow and a second slatted floor part for supporting manure produced manure moving the second slatted floor part relative to the first slatted floor part to an opened state in which at least a portion of the second slatted floor part is spaced apart from the first slatted floor part to form a free space 5 for manure removal, B) moving the manure relative to the second slatted floor part with the aid of at least one manure displacer, wherein at least a part of the manure is discharged via the free space, and C) moving it from the opened state to the moving the second slatted floor when closed part compared to the first first slatted floor part. Advantages and further embodiments are already described in detail in the foregoing and in the following description of the figures.

The invention will be elucidated on the basis of non-limitative exemplary embodiments shown in the following figures. Herein: figure 1 shows a top view of a maternity device according to the invention, figures 2a-2e schematic cross-sections of the maternity device according to figure 1 in which the operation of the maternity device is shown, and figures 3a-3c schematic cross-sections of another maternity device according to the invention in which the operation of the maternity device is shown.

Figure 1 shows a top view of a maternity device 1 according to the invention. The maternity device 1 comprises a first slatted floor part 2 for supporting a sow 3, the first slatted floor part 2 enclosing a displaceable second slatted floor part 4 for collecting manure 5. The first grid floor part 2 and the second grid floor part 4 are located at substantially the same level in the state shown in Figure 1. Laterally with respect to the first slatted floor part 2, two third slatted floor parts 6 are positioned for supporting piglets 7. Optionally, the first lattice floor part 2 on the one hand and the third lattice floor part 6 on the other hand can be made mutually displaceable for protecting the piglets, as is also described in NL1019311. The manure 5, in particular the liquid fraction, will partially sag through the grid openings in the second slatted floor part 4. The remaining part of the manure 5 will adhere firmly to the second slatted floor part 4. The (transverse to the longitudinal direction of the first slatted floor part) 2 standing width of the slatted floor part 4 is usually a maximum of 60 centimeters.

Figures 2a-2e show schematic cross-sections of the maternity device according to figure 1, in which the operation of the maternity device 1 is shown. In these figures it is shown that the device 1 comprises, next to the first slatted floor part 2 and the second slatted floor part 4 provided with manure 6, also a collection tray 8, also referred to as a manure cellar, for receiving manure 5 generated by the sow 3. In order to to be able to remove a substantial part of the manure 5 from the second slatted floor part 4, the second slatted floor part 4 is displaceable relative to the first slatted floor part 2. To that end, the second slatted floor part 4 is coupled to an articulated arm 9, which arm 9 is driven by a first drive element 10. The drive element 10 can for instance be formed by a pneumatic cylinder, a hydraulic cylinder or an electric motor. The first drive element 10 is coupled to a control unit 11 for controlling the first drive element 10. The drive element 10 can be controlled automatically, for example time-controlled or mass-controlled (depending on the amount of manure present on the second slatted floor part 4). , but can also be activated manually using a control button (not shown). With the aid of the drive element 10, the second grid floor part 4 can be displaced vertically in a downward direction (Figure 2b), whereby a free space of generally a few centimeters, in particular a maximum of 3 centimeters, is created between the first grid floor part 2 and the second grid floor part 4 This limited free space will generally not pose a risk for piglets 7 possibly present in the maternity device. In this opened condition, the created space makes it possible to move a manure mover 12, partially positioned under the first slatted floor part 2, and possibly to have it scraped over the top side of the second slatted floor part 4 (figure 2c), as a result of which - in this case - the manure 5 will be pushed for a substantial part from the second slatted floor part 4 into the collecting bin 8 where the manure 5 will be stored temporarily (figure 2d). After cleaning the second slatted floor part 4, the second slatted floor part 4 will again be moved upwardly into the closed state (figure 2e) as also shown in figure 2a. Movement of the manure displacer 12 takes place by using a second drive element 13 which is also coupled to the control unit 11. The second drive element 10 can also be formed, for example, by a pneumatic cylinder, a hydraulic cylinder or an electric motor. It is also conceivable to integrate the first drive element 10 and the second drive element 13. The control unit 11 is adapted to control the components in the correct order, successively: downward movement of second slatted floor part 4, displacement of manure displacer, upward movement of second slatted floor part 4. With the aid of the maternity device 1 according to the invention, the second slatted floor part 4 can thus be be cleaned in an automated manner, without the need for time-consuming physical work. The entire cycle as shown in Figs. 2a-2c will generally last approximately 10 seconds. Incidentally, it is also conceivable to increase the first slatted floor part 2, wherein the second slatted floor part 4 does not move. Which lattice floor part is mobile, which lattice floor part is (possibly) stationary, is therefore arbitrary.

Figures 3a-3c show schematic cross-sections of another maternity device 14 according to the invention in which the operation of the maternity device 14 is shown. According to the maternity device 1 shown in figures 1-2, the maternity device 14 comprises a first grid floor 15, also referred to as first grid floor part 15, for supporting a sow (not shown), and a second grid floor 16 enclosed by the first grid floor 15, also referred to as the second slatted floor part, for catching manure 17 produced by the sow. The second slatted floor 16 is pivotally connected by means of a hinge 18 to the first slatted floor 15. The slurry 17 is discharged from the second slatted floor 16 by pivoting the second slatted floor 16 relative to the first slatted floor 15 (Fig. 3b), a manure displacer 19 subsequently being moved via a non-linear path to subsequently pull the manure 17 from the second slatted floor 16 (Fig. 3c) and by having an underlying manure cellar 23 collected. After removal of the manure, the second slatted floor 16 is pivoted back again in upward direction. Both the second grid floor 16 and the manure displacer 19 are driven by the same drive element 20, which drive element 20 is controlled by a control unit 21. The second grid floor 16 is coupled via an articulated arm 24 to the drive element 20. The device 14 furthermore comprises a BIG detector 22 coupled to the control unit 21 for detecting the presence of a piglet on or near the second grid floor 16. The BIG detector 22 can herein comprise an optical sensor or a heat sensor for detecting the piglet (s). In case a piglet is detected in the immediate vicinity of or on the second grid floor 16, it will be prevented from moving the second grid floor 16 from the closed state to the open state in order to prevent the risk of injury to the relevant piglet as much as possible. . Incidentally, the pivot angle of the second slatted floor 16 will generally be limited to 30 degrees, 8 in order to further reduce the risk for piglets. Moreover, a limited swivel angle does not result in unnecessary loss of time and energy during swiveling.

It will be clear that the invention is not limited to the exemplary embodiments shown and described here, but that within the scope of the appended claims, countless variants are possible which will be obvious to those skilled in the art.

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Claims (20)

Sowing device for sows, comprising: - a first slatted floor part for supporting a sow, 5. a second slatted floor part for collecting manure produced by the sow, - at least one drive element for displacing the second slatted floor part relative to the first slatted floor part , such that a free space for manure removal is created between the second slatted floor part 10 and the first slatted floor part, and - at least one manure displacer movable relative to the second slatted floor part adapted to move at least a part of manure present on the second slatted floor part . 2. Maternity device as claimed in any of the foregoing claims, wherein the drive element is adapted for displacing the second grate floor part relative to the first grate floor part between a closed state, wherein the second grate floor part and the first grate floor part connect substantially to each other, and an opened state, wherein the second grid floor part and the first grid floor part are positioned at a mutual distance while enclosing the free space for manure removal. 3. Maternity device as claimed in any of the foregoing claims, wherein the drive element is adapted for lowering at least a part of the second lattice floor part relative to the first lattice floor part. 4. Maternity device as claimed in claims 2 and 3, wherein the manure mover is positioned lower than the second slatted floor in the closed state of the second slatted floor part and the first slatted floor part, and higher than the second slatted floor floor is positioned in the opened state of the second slatted floor part and the first slatted floor part. 1 03 8 1 45 5. Maternity device as claimed in any of the foregoing claims, wherein the manure displacer is adapted to move at least a part of manure present on the second slatted floor part towards the free space. 6. Maternity device as claimed in claim 4, wherein the manure displacer is adapted to push at least a part of manure present on the second slatted floor part towards the free space. 7. Maternity device as claimed in claim 5 or 6, wherein the manure displacer is adapted to pull at least a part of manure present on the second slatted floor part towards the free space. 8. Maternity device as claimed in any of the foregoing claims, wherein the manure displacer is adapted for scraping over an upper side of the second slatted floor part. Maternity device according to one of the preceding claims, wherein the manure mover is movably coupled to the second slatted floor part. 10. Maternity device as claimed in any of the foregoing claims, wherein the drive element is coupled to the manure mover for displacement of the manure mover. 11. Maternity device as claimed in any of the foregoing claims, wherein a collecting container is positioned under the free space for collecting the manure removed from the second slatted floor part via the free space. 12. Maternity device as claimed in any of the foregoing claims, wherein the drive element is adapted to mutually move the second grate floor part and the first grate floor part such that the maximum distance between the first grate floor part and the second grate floor part is 3 centimeters. 13. Maternity device as claimed in any of the foregoing claims, wherein the drive element forms a pneumatic drive element and / or a hydraulic drive element. 14. Maternity device according to one of the preceding claims, wherein the drive element comprises at least one electric motor. A maternity device according to any one of the preceding claims, wherein the maternity device comprises at least one operating element 10 coupled to the drive element for controlling the drive element. 16. Maternity device according to one of the preceding claims, wherein the maternity device comprises at least one control unit for controlling the drive element. 15 17. Maternity device as claimed in any of the foregoing claims, wherein the grid floor part has a width of at most 60 centimeters. 18. Maternity device according to any one of the preceding claims, wherein the maternity device comprises at least one third grid floor part positioned laterally relative to the first lattice floor part for supporting one or more piglets. 19. Maternity device according to any one of the preceding claims, wherein the maternity device comprises at least one detector for detecting the presence of a piglet on the second lattice floor part. 20. Method for discharging manure into a maternity device for sows, in particular by using a maternity device according to any one of claims 1-19, comprising: A) from a closed state in which a first grid floor part for supporting a sow and a second slatted floor part for supporting manure produced manure moving the second slatted floor part relative to the first slatted floor part to an opened state in which at least a portion of the second slatted floor part is spaced apart from the first slatted floor part to form a free space for slurry discharge, B) moving the manure relative to the second slatted floor part with the aid of at least one manure displacer, wherein at least a part of the manure is discharged via the free space, and C) moving it from the opened state to the closed condition of the second slatted floor part with respect to the first the grate floor part. 1 03 8 1 45