Process for filling feed bowl and feed plant

专利摘要:
Feed systems for loose poultry or other small animals comprising a feeding bowl having an outer distribution cone and wherein an overlying horizontal conveying channel for feed is provided over the distribution cone, a passage for regular feeding out of the transport channel is provided where the feed, through passage through, passes through the opening at the distribution cone. to the inside of the distribution cone. Advantageously, prior to the passage for regular feeding in the direction of movement of the feed, there is a passage for initial feeding out of the conveying channel, and arranged so that the feed passes out of the initial feeding passage and strikes separate slit on the outside of the distribution cone, with in the distribution cone a dividing line between the two slides.
公开号:DK201670365A1
申请号:DKP201670365
申请日:2016-05-27
公开日:2017-12-18
发明作者:Karsten Egelund Andersen
申请人:Landmeco Ølgod As；
IPC主号:

专利说明:

Method for filling feed bowl and feed plant
BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to a method of filling poultry feeders or other detached small animals in which the feed is fed to a feed bowl from an overhead horizontal conveyor channel in which the feed is conveyed in a conveying direction and to successive feed bowls along the conveying channel, where the feed is either directed to the outside of the feed. distribution cone in the feeding bowl, out through a passage in the transport channel for initial feeding, or alternatively is discharged through a passage in the transport channel for regular feeding and through an opening in the top of the distribution cone to the inside of the distribution cone.
Such a plant is already known, for example from DK 1152658, and the plant described herein has the challenge that the feed which is led to the outside of the distribution cone falls down along the cone surface so that it is not distributed around the upper edge of the bowl. Therefore, the chickens will have limited access to the feed.
Therefore, a technique is desired which ensures that a larger part of the feed is distributed around the edge of the feeding bowl, and in particular is brought further away from the passage or opening for initial feeding. It is also desirable to have a system that consists of a few parts, is easy to operate and which can be assembled around a transport pipe without the use of tools, and so that this is done without the risk of incorrect installation.
The object of the invention is met by a method of the type specified in the preamble of claim 1, characterized in that the feed in the conveying channel passes in the transport direction past the passage for initial feeding before reaching the passage for regular feeding, so that the feed passes out through the passage for initial feeding with a longitudinal velocity component of the conveying channel corresponding to a forward velocity of the feed in the conveying channel and a freely decreasing velocity component as received by an upright dividing line as a result of the longitudinal velocity component of the conveying channel and being sent in separate material streams along the sliding surface of the distributing surface on the distributing surface each of the sliding surfaces to the periphery of the feeding bowl.
In this way, the feed is distributed along two diametrically opposite edge portions, which lie on either side of an opening in the top of the distribution cone, so that it is possible to ensure that a substantial part of the feed bowl periphery is coated with feed. For example, two sliding surfaces may be arranged extending from each side of the dividing line and down the distribution cone towards the edge of the feeding bowl.
Suitable embodiments of the invention are set forth in claims 2 to 4.
As mentioned, the invention also relates to a feed plant for loose iron or other small animals comprising a feeding bowl having an outer distribution cone with a central raised part and a hole in the central raised part as well as a skirt which fits into the feeding bowl within and below the upper edge of a raised rim of the feeding bowl and wherein an overlying horizontal conveying channel for feed is provided over the distribution cone, a passage for regular feeding out of the transport channel, where the feed, when passing through, passes through the opening at the top of the distribution cone to the inside of the distribution cone.
The feed system is characterized in that prior to the passage for regular feeding in the direction of movement of the feed, there is a passage for initial feeding out of the transport channel, arranged so that the feed passes out of the initial feeding passage and impinges separate slides on the outside of the distribution cone, with the distribution cone being a dividing line between the two slides. This makes it possible to divide the material stream that the feed comprises into separate material streams which can be fed to the side of the aperture in the raised part or top of the distribution cone, and thus a significantly larger proportion of the edge of the feeding bowl can be coated with feed during the initial feeding. This ensures that as many chickens as possible have access to the feed, so that the chickens all quickly start consuming food and growing. Furthermore, this ensures that the chickens all quickly learn that the feed is present in the feeding bowl all the way around the rim thereof when the initial feeding phase is completed.
Advantageous embodiments of the feed plant are set out in claims 6-11. The invention will now be explained in more detail with reference to the drawings, in which:
FIG. 1 shows a 3d render of an example of a feeding bowl according to the invention
FIG. 2 shows a section through a feeding bowl similar to that shown in FIG. 1
FIG. 3 is a sectional view similar to that of FIG. 2, but where an initial feeding has been initiated,
FIG. 4 is a top plan view of the situation of FIG. 3
FIG. 5 shows an exploded drawing in side view of the feeding bowl of FIG. 1
FIG. 6 the outer cone seen alone and from above,
FIG. 7 is a side sectional view similar to that of FIG. 2, but now in a state of normal feeding,
FIG. 8 is a 3d rendering of the screen portion,
FIG. 9 is the same screen portion as shown in FIG. 8, but viewed from a different angle,
FIG. 10 shows the locking ring in a 3d rendering,
FIG. 11, the locking ring is shown in FIG. 10 but viewed from a different angle,
FIG. 12 is a side elevational view of the tube with hidden contours shown in dotted weakened line;
FIG. 13 is showing the cone cut but in a 3d view,
FIG. 14 is a view showing the assembly of tubes, top and cone from the end in a first position,
FIG. 15 are the same elements as in FIG. 14, but now with the tube and ring turned to a position for filling the feeding bowl,
FIG. 16 are the same elements as in FIG. 15, but now with the tube and ring turned for initial feeding and coating the area around the feeding bowl with feed,
FIG. 17 shows a plurality of feed bowls on a pipe piece in the same position as shown in FIG. 15,
Fig. 18 shows the claim plates in Figs. 17, but now in the same position as shown in FIG. 16
FIG. 19 shows the feed bowls of FIG. 17, but now in the same position as indicated in FIG. 14 and
FIG. 20 shows the feed bowls rotated along with the pipe for washing position. FIG. 1 shows a feeding bowl 1 for poultry or other loose small animals. The feeding bowl 1 has a round bottom bowl and in the sectional view of FIG. 2 it is seen that the bowl 1 has a raised circular rim 2 and a vaulted middle portion formed as a cone surface 3. The liner 4 is fed to the feeding bowl from an overlying horizontal transport channel 5, in which the feed is transported in a transport direction indicated by the arrow 6 onwards. the following feeding bowls 1 along the conveying channel 5. The feed 4 is directed to an outside side 8 of a distribution cone 7 in the feeding bowl as it passes out through a passage to initial feeding 9 in the conveying channel 5. This is illustrated in FIG. 3 and FIG. 4 where the feeding bowl is shown with initial feeding completed with feed distributed in the bowl along the entire rim, and a certain amount of feed on the floor. Alternatively, the feed 4 is guided out of the transport channel through a passage for regular feeding 10, as seen in FIG. 7. Here, the liner 4 passes further through an opening 11 in the top of the distribution cone 7 to the inside of the distribution cone 7. As seen in FIG. 2, the liner 4 in the conveyor channel 5 must pass in the conveying direction 6 past the passageway for initial liner 9, before reaching the passageway for regular liner 10 down through the opening 11.1 the conveyor lane 5 has a speed of movement 6 as the helical auger 12 is rotated and by the movement out of Thus, the passage for initial feeding 9 will have the feed having a horizontal and a vertical velocity component. The horizontal speed component gives the feed an impulse in the direction of arrow 6, and according to the invention, this impulse is utilized for an improved spreading of the feed on the outer side 8 of the distribution cone 7.
The conveyor channel 5 can be rotated about its longitudinal axis relative to the feed bowls 1 connected to it. In an angular position v2 shown in FIG. 16, the passage for initial feeding 9 will be open to the outside of the distribution cone 8 and at the same time the passage for regular feeding 10 will be closed. This is also seen in Figs. 3 and FIG. 4. Rotate the conveyor channel to a different angular position v1, shown in FIG. 15, relative to the feed bowls, the passage for regular feeding 10 is opened down to the opening 11 at the top of the distribution cone 7 and the passage for initial feeding 9 is closed. This is further illustrated in Figs. 7. The rotation of the conveying duct is carried out via a handle shown in Figures 17-20 and which is connected to the pipe 13 of the conveying duct and, for example, arranged at the end of a feed system, for example at the end wall of the stable.
The vector velocity component of the feed in the longitudinal direction 6 of the conveyor channel 5 corresponding to a progress velocity and the velocity component corresponding to free fall means that the feed is received on sliding surfaces 14, 15 externally of the distribution cone 7 and distributed by sliding along the sliding surfaces 14,15 to the periphery of the feeding bowl. The sliding faces 14, 15 are bounded by erect stop faces 16,17 which join together in an upright dividing line 18. The horizontal velocity component of the feed out of the opening 9 of the initial liner means that the feed 4 strikes against the dividing line 18, and then continues along each of its sliding surfaces. 14, 15. The purpose of this is that as much of the circumference of the feeding bowl as possible is hit by the feed at the initial feeding. When the feeding bowl is filled all the way around its periphery, the feeding of feed 4 as seen in FIG. 3 causes the feed 4 to continue beyond the edge 2 and land on the stable floor. Here, chickens or other small poultry roam around, and are designed by nature to seek forage on the ground on which they walk. At the same time, the newly hatched poultry can be so small that it is unable to collect feed from the feeding bowl 1 within the rim 2 thereof, so initial feeding directly on the floor is a prerequisite for the animals to survive the first days in the barn. However, the poultry grows so strongly that in just a few days it reaches a size that allows it to reach the feed directly from the bowl, and from then on the feeding takes place as normal feeding, where the feed is passed through the opening at the top of the distribution cone and spread to the edge area. via the bowl's inner built-in cone surface.
The slip or slip surfaces 14,15 and the stop surfaces 16,17 must be arranged so that the liner 4 is distributed to as large a part of the periphery of the bowl 1 as possible. In FIG. 6 it can be seen that at the bottom of the distribution cone's skirt are provided 12 radially extending gene plates 19, the purpose of which is to generate the poultry, so that the animals do not use the bowl 1 as a nest and resting place, with no access to the feed 4 for the other animals and contamination of the the feed 4 as a result. It is desired that at least 6 out of 12 spaces between the gene planes are filled with feed or 6 12 parts of the bowl periphery are filled. However, it is preferred that at least 8 12 parts, or at least 11 12 parts of the periphery of the feed bowl receive feed distributed along the sliding surfaces 14, 15. Along a portion of the rim 2 typically 3 12 parts of the rim as seen in FIG. 4, the feed will accumulate until it runs out onto the surrounding floor where it forms a stack, and only when this stack cannot receive more feed from the initial feed opening in the tube is the initial feed to end. Thus, feed 4 is fed until the accumulation on the sliding surfaces 14,15 stops the inflow and the feed will then condense the transport forward to the next feed bowl 1 placed on the pipe 13 of the transport channel.
Thereafter, the feed will cover the stable floor outside the periphery of the feed bowl along the indicated portion thereof, while the inner edge of the bowl is coated with feed as far as possible all around
Thus, the feeding bowl 1 of the feeding system comprises the outer distribution cone 7 which, with its lower skirt, fits into the feeding bowl within and below the upper edge 20 of the raised rim 2 of the bowl, so that the feed 4 which is fed through the opening 11 of the distribution cone at the top thereof is fed to it. insides will not run beyond the edge 20 at any point. The slots 14, 15 pass where their side of the top of the distribution cone and the opening 11 therein, and they begin their course at a further dividing line 38 which is just below the passage of the initial liner 9 and adjacent to the erected dividing line 18. The sliders 14,15 having a suitable angle of feed to the bottom of the feed bowl and comprising at least 3 12 parts of the circumference, preferably not less than 9 12 'parts of the distribution cone 7 circumference. This ensures that virtually all parts of the rim of the feeding bowl 2 are coated on their inner side with liner 4. The 12 gene plates 19 are placed at equidistant intervals and are uniformly formed, 2 of which have a lowered upper edge 19.1 which can contribute to a larger area of the rim of the feeding bowl is coated with liner 4 during the initial feeding. A border section between two gene plates 19 then corresponds to 30 degrees of the total 360 degree circumference. 2 12 parts is the same as 60 degrees, 3 12 parts is the same as 90 degrees, the translation between 12 parts and degrees is continued.
If the conveying channel 5 is allowed to be arbitrarily high above the bottom of the feed bowl, the task of securing the sliding surfaces 14, 15 is a suitable sliding angle for filling the feed bowl along with and outside the entire rim 2, a trivial problem, but at the same time a relatively low overall installation height is desired. , so that the farmer can get around the barn relatively effortlessly, regardless of the many transport channels 5 and associated pipes 13.
Above the course of the seams 14, 15 at the top of the distribution cone there is a screen element 21 for shielding the passage 9 for the initial feeding. The shield element is best seen in Figs. 5, FIG. 8 and FIG. 9. The shield element 21 has a detachable staple 22 for the pipes 13. of the conveying channel 5. The flap 22 comprises a slotted tube 23 with an internal diameter corresponding substantially to the outside diameter of the transport channel tube 13. The slot 24, which is continuous throughout the slotted tube 23 length allows the slotted tube 23 to be snap-fastened around the tube 13 of the transport channel so that it ends tightly against the surface thereof. In a central region of the staple 22, the slotted tube 23 will have a wide slot so that the feed can pass through and down into the opening 11, or down onto the outer slots 15, 14. The shield member 21 extends downwardly from the area around the wide slot. so that it is not possible to get a finger into the passage 9 for the initial feeding.
The slotted tube 23 has, at downwardly extending edge portions along the slot 24, opposite the screen element 21, provided gripping grooves 25 which cooperate with form complementary grooves 26 in the upper portion of the distribution cone along the opening 11. The gripping grooves 25 can be slid into the complementary grooves 26 in the distribution cone, so that a form-fitting bracket is formed between the two parts. When the distribution cone 7 is displaced into position and occupies the grooves 25, it is effected by an intermittent movement between distribution cone 7 and shield element 21 parallel to the tube 13. With the staple 22 clicked around the tube 13, the slot 24 will thereby be locked so that the staple 22 does not can be removed from the pipe 13 once it has had the distribution cone 7 mounted. This assembly method is both simple and straightforward, and can be done without the use of tools.
The slotted tube 23 of the shield element 21 has further arranged around its terminating edge at the gripping grooves 25 an outwardly directed flange 27 which acts as a detachable staple against a locking ring 28 shown in FIG. 10 and 11. Locking ring 28 comprises a hook 29 which engages the flange 27 when the locking ring 28 is mounted in addition to the overall system comprising the shield element 21 and the distribution cone 7. By locking the hook 29 around the flange 27, it can be ensured that the locking ring 28 and the slotted tube 23 cannot be displaced axially relative to each other but continues to rotate relative to each other about their common longitudinal axis. The locking ring 28 also comprises an inwardly directed knob 30 which fits form complementarily in a recess or locking opening 31 in the pipe 13 of the transport channel. When the knob 30 is placed in the locking opening 31, the pipe 13 and the locking ring 28 are fixed relative to each other, axial direction and rotationally. The knob 30 and the locking opening 31 are asymmetrical, so that the locking ring can only be mounted with the knob 30 in the locking opening 31 when the locking ring 28 is turned correctly with respect to the transport direction 6. This ensures that the distribution cone 7 and the booklet 22 will always seated correctly in relation to the pipes 13 for initial and regular feeding. The locking ring 28 further has a radial abutment surface 32 which is adapted to cooperate with a radially extending projection 33 on the upper part of the distribution cone 7, so that, during rotation of the conveying channel 5, at an angular interval, the locking ring 28 does not affect the distribution cone 7. Such angular positions is shown in FIG. 15 and 16 and indicated with V1 and V2. Figures 17 to 20 show part of a feed line in a 3d rendering, where a number of feed bowls are viewed one after the other on a feed tube. The angular intervals are illustrated in Figs. 17 and FIG. 18, where FIG. 17 shows the handle 39 and thus the tube in an angular position like the angular position shown in FIG. 15 corresponding to the setting of the plant for normal feeding, and wherein FIG. 18 shows the handle and the angle of rotation of the tube as in FIG. 16 which corresponds to a setting of the plant for initial feeding. At these angular positions it is seen that the tube is rotated without the feeding bowl rotating. In FIG. 19 shows an angular position of the tube and handle corresponding to the angular position shown in FIG. 14 and finally a further rotation of the handle and tube of FIG. 20. Upon this rotation of the conveying channel 5 in the further angular interval, the abutment surface 32 of the locking ring will abut against the radial protrusion 33 of the distribution cone and the rotation of the distribution conduit tube 13 will bring the distribution cone 7 and the rest of the feeding bowl 1 around. This makes it possible to turn all the feed bowls mounted on the pipe 5 of a transport channel to a position where they are easy to clean, for example with the bottom of the bowl 1 in a vertical position up from the stable floor, as seen in FIG. During this rotation of the tube relative to the feeding bowl, both openings of the tube will be blocked, and at the same time means that flushing of the feeding bowl with pressurized water can be done without water entering the tube, thereby protecting the inside area of the tube from contamination. while cleaning the feeding bowls. The locking ring 28 is initially open, as shown in FIG. 10 and FIG. 11. The ring 28 is made of a flexible material so that it can be opened even more, as a lower locking lug 40 can be pressed away from an upper locking lug 41, so that the ring 28 is mountable on the pipe 13. The locking lugs 40, 41 have form-complementing barbs 42 so that the locking lugs 40, 41, by compressing the opening of the ring, will cause the counter lugs to lockably engage one another. This can be done without tools.
The distribution cone 7 is separately connected to the feeding bowl 1 through flexible bars 34 (see Fig. 2) extending downwards from the inside of the top of the feed cone around the opening 11 herein, as seen, for example, in Figs. 2. The flexible bars 34 are provided at the bottom with spear-shaped barbs 35 arranged for snap engagement with a peripheral region of a through opening 36 in a center region of the cone surface 3 of the feeding bowl 1. When the distribution cone 7 and the bowl 1 are to be separated, this is relatively easy to carry out through a radial compression of the spear-shaped barbs 35 which can be easily done with a suitable tool, which may, for example, consist of a tube (not shown) with an inner cone-shaped rim at one end. This separation and assembly method is non-destructive and can be carried out many times without causing any damage or significant wear to the parts, which helps ensure high service life and flexibility of the plant.
The middle region of the feeding bowl 1 is formed as a cone surface 3 and is thus raised above its rim 2, so that between the cone shape of the middle region and the distribution cone 7 there is formed a circumferentially feedable feed depot 37 which will automatically be discharged towards the edge of the feeding bowl 2 when the animals eat of the feed here. . In FIG. 2 and FIG. 12, a pipe 13 for use as a transport channel 5 is seen in a feed plant. In the tube 13 is provided a helical body 12 which, by rotation, affects the feed for forward transport in the tube 13, where in the tube there is a radial opening 9 for feed passage out of the tube for initial feeding and subsequently in the direction of transport 6 is a radial opening 10 for feed passage. out of the tube 13 for regular feeding. The pipe 13 may have any length corresponding, for example, to the length of a housing installation, and the pipe may further be composed of suitable pieces, as is well known for longer pipe bodies. The helical body or auger or auger is also a well-known element and formed here from an elongated piece of flat iron. At one end of the tube, there is provided a motor, for example, an electric motor which supplies rotational movement to the auger, which movement will propagate to the entire auger throughout the length of the tube. This allows the feed to be transported all the way and fall into the feeding bowls where they are mounted on the pipe.
The two openings 9, 10 are spaced axially apart in the longitudinal direction of the tube and they are also located in a mutual rotation angle in the circumference of the tube relative to each other, the shortest angle of rotation from the regular feeding opening to the initial feeding opening being opposite the direction of rotation of the helical body. in the tube when rotated to feed the feed. This ensures that the feed in the tube is not aligned with the passage 9 for the initial feeding when not in use. It is also well known that openings of the type needed to form a passage for the feed will weaken the tube and therefore some distance between them is necessary.
Reference numbers: 1 Feed bowl 2 Circular rim 3 Cone surface 4 Feed 5 Overlay channel 6 Transport direction 7 Distribution cone 8 Exterior surface of distribution cone 9 Passage for initial feeding 10 Passage for regular feeding 11 Opening in the top of the distribution cone 12 Screw-shaped body Stop surface 17 Pipe surface 15 Transport channel 18 Create dividing line 19 Gene surfaces 20 Top edge 21 Shield element 22 Pipe staples 23 Slotted tubes 24 Slots 25 Grip grooves 26 Shape complementary grooves 27 Flange 28 Locking ring 29 Hook 30 Knob 31 Lock opening 32 Radial abutment 33 Radial extending projection 34 Flexible bracket 36 Fillable feed depot 38 Additional dividing line 39 Handles 40 Lower Locking bag 41 Upper Locking bag 42 Counter bolts

权利要求:
Claims (11)
[1]
A method of filling the feed bowl (1) for poultry or other loose small animals, wherein the feed (4) is fed to a feed bowl (1) from an overhead horizontal conveyor channel (5) wherein the feed (4) is transported in a transport direction (6) and forward successive feeding bowls (1) along the conveying channel, where the feed (4) is either directed to the outside of the distribution cone (7) in the feeding bowl (1), through a passage for initial feeding (9) in the transport channel (5), or alternatively is passed through a passage for regular feeding (10) in the transport channel and through an opening (11) in the top of the distribution cone (7) to the inside of the distribution cone (7), characterized in that the feed (4) in the transport channel (5) passes in the direction of transport (6). ) past the passage for initial feeding (9) before reaching the passage for regular feeding (10) so that the feed (4) passes out through the passage for initial feeding (9) with a longitudinal component of the conveyor channel corresponding to a advancing velocity of the liner (4) in the conveyor channel (5) and a velocity component corresponding to free fall, received by an upright dividing line (18) as a result of the velocity component in the longitudinal direction of the conveyor channel and sent in separate material streams along sliding surfaces (14,15) on the outside of the distribution cone surface (8) and distributed by sliding along respective a sliding surfaces (14,15) to the periphery of the feeding bowl.
[2]
Method according to claim 1, characterized in that the feed is distributed along the sliding surfaces (14,15) until the feed (4) covers part of the housing floor outside the periphery of the feeding bowl (1) along a portion of the periphery, so that the housing floor along at least 6 12 parts of the feed bowl periphery, or preferably at least 8 12 parts, or at least 11 12 parts of the feed bowl periphery are covered with feed.
[3]
Method according to claim 2, characterized in that the feed is divided into two streams of material by an additional dividing line (38) adjacent to the erected dividing line (18) between two sliding surfaces (14,15).
[4]
Method according to claim 3, characterized in that at least part of the dividing lines (38, 18) lie below the passage for initial feeding (9).
[5]
A feeding facility for loose tar or other small animals comprising a feeding bowl (1) having an outer distribution cone (7) with a central raised part and a hole (11) in the central raised part as well as a skirt which fits into the feeding bowl ( 1) within and below the upper edge of a raised rim (2) of the feeding bowl and where an overlying horizontal conveying channel for feed is provided over the distribution cone, a passage for regular feeding (10) out of the transport channel (5) is provided where the feed passing therethrough through the opening (11) at the top of the distribution cone (7) to the inside of the distribution cone, characterized in that prior to the passage for regular feeding (10) in the direction of movement of the feed, there is a passage for initial feeding (9) out of the transport channel (5). ) arranged so that the feed passes out of the initial feeding passage and strikes separate slots (14,15) externally of the distribution cone (7) with a division line (1) in the distribution cone. 8, 38) between the two slides.
[6]
Feeding system according to claim 5, characterized in that the slides (14,15) extend sloping from the upper part of the distribution cone from a dividing line (18, 38) down to the edge (2) of the feeding bowl (1), the sloping slides (14,15). ) comprise at least 3 12 parts of the circumference, preferably not less than 9 12 parts of the total cone of the distribution cone.
[7]
Feeding system according to claim 6, characterized in that a screen element (21) is provided for shielding the passage of the initial liner (9) over the course of the slides (14,15), the screen element (21) further comprising a detachable a booklet (22) for the transport channel tube (13), a detachable booklet for the distribution cone (7) and a detachable booklet for a locking ring (28) rotationally fixed to the transport channel.
[8]
Feeding system according to claim 7, characterized in that the locking ring (28) is rotatably engaged with the screen element (21) but axially fixed in relation thereto, and the locking ring (28) further comprises a radial abutment surface (32) which cooperates with a radially extending projection (33) on the upper part of the distribution cone (7) such that, during rotation of the conveying channel (13), at an angular interval, the locking ring (28) does not affect the distribution cone (7) and so that the rotation ring (28) during rotation of the transport channel (5) ) at a further angular range will cause the distribution cone in rotation at the abutment of the radial abutment surface (32) against the radially extending projection (33) of the distribution cone (7).
[9]
Feeding system according to claim 8, characterized in that the distribution cone (7) is separably connected to the feeding bowl (1) through flexible bars (34) extending downwardly from the inside of the top of the feed cone around the opening (11) therein, which flexible rods (34) at the bottom are provided with spear-shaped barbs (35), arranged for snap engagement with a peripheral region of a through opening (36) in a central region of the cone surface (3) of the feeding bowl.
[10]
Feeding system according to claim 9, wherein the middle area of the feeding bowl is raised above its edge, so that between the cone shape of the middle area and the distribution cone (7), a circumferentially fillable feed depot (37) is formed which will automatically discharge towards the edge of the feeding bowl (2). the animals eat from the feed here, characterized in that the spear-shaped barbs (35) are flexible in the radial direction, so that the feeding bowl (1) is easily removable by the action of the rods (34) in the radial direction.
[11]
Feeding system according to claim 8, characterized in that the conveying channel comprises a tube (13) with a radial passage for feeding out of the tube (13) for initial feeding (9) and subsequently in the transport direction (6) a radial passage forage out of the tube for regular feeding. (10) wherein the tube, in its rotation relative to the feed bowl, advances toward the additional angular interval for carrying the feed bowl to block access from the feed bowl to the two radial passages (9,10).

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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DKPA201670365A|DK179166B1|2016-05-27|2016-05-27|Process for filling feed bowl and feed plant|DKPA201670365A| DK179166B1|2016-05-27|2016-05-27|Process for filling feed bowl and feed plant|

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DK17802242.2T| DK3462850T3|2016-05-27|2017-04-25|Method for filling feed bowls and a feeding system|

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EP17802242.2A| EP3462850B1|2016-05-27|2017-04-25|A method of filling feeding pans as well as a feeding system|

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CA3024144A| CA3024144C|2016-05-27|2017-04-25|A method of filling feeding pans as well as a feeding system|

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CN201780032672.2A| CN109152349B|2016-05-27|2017-04-25|Method for filling a feeder pan and a feeding system|

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US16/304,778| US11272693B2|2016-05-27|2017-04-25|Method of filling feeding pans as well as a feeding system|

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RU2018141547A| RU2018141547A|2016-05-27|2017-04-25|Method for filling feed trays and feeding system|

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PCT/DK2017/050120| WO2017202426A1|2016-05-27|2017-04-25|A method of filling feeding pans as well as a feeding system|

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AU2017269545A| AU2017269545B2|2016-05-27|2017-04-25|A method of filling feeding pans as well as a feeding system|

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NZ748364A| NZ748364A|2016-05-27|2017-04-25|A method of filling feeding pans as well as a feeding system|