DE3419108A1 - Feed dispenser for fish - Google Patents

Abstract

The invention relates to a feed dispenser for fish, in which the feed (55) can be removed in portions from a stock container (1) having an outlet pipe (2) in its funnel-shaped bottom and introduced into the water (24) containing the fish. To this end, an outlet pipe (4 or 44) is pivotally connected to the outlet connector (2) and is regularly pivoted by a drive (7 or 30) from a first end position into a second end position. When this occurs, the outlet pipe (4 or 44) adopts such an attitude, in the first end position, that only a certain quantity of feed slides out of the stock container (1) into the region of the pivotally attached end of the outlet pipe (4 or 44). In the second end position, the outlet pipe (4 or 44) adopts such an attitude that the feed (55) slides out of the outlet pipe (4 or 44) and enters the water (24) containing the fish. As a result of this design of the feed dispenser, the quantity of feed to be supplied to the fish can be exactly metered. <IMAGE>

Description

Feed dispenser for fish

The invention relates to a feed dispenser for fish, in which the Feed a storage container having an outlet nozzle at its funnel-shaped bottom can be removed in portions and introduced into the fish water.

With such a commercially available feed dispenser there is one in the fish water hanging metering pendulum provided. As soon as the fish swim against this metering pendulum, a small amount of feed is released and falls through the out of that pruning the fish water. This has the consequence that a larger number of fish is attached the feeding place. The fish push through the turmoil at the feeding station often uncontrolled against the metering pendulum, so that the amount of feed getting into the water cannot be precisely determined in advance and can be subject to strong fluctuations.

The invention has for its object to provide a feed dispenser to be designed in such a way that the amount of feed supplied to the fish can be precisely dosed.

The object is achieved according to the invention in that that an outlet pipe is pivotally attached to the outlet and through a The drive is periodically pivoted from a first end position to a second end position, wherein the outlet pipe assumes such a position in the first end position that from the storage container only a certain amount of feed in the area of the pivotable attached end of the outlet pipe slips and in the second end position such Takes a position that the feed is out slips out of the outlet pipe and gets into the fish water.

The periodic swiveling of the outlet pipe arrives in rhythm each pivoting a certain amount of food in the fish water. The feed the feed is no longer dependent on any randomness.

According to one embodiment of the invention, a drive is on his one end closed, can be filled with water via a feed device and in the area of its open end directly or indirectly coupled to the outlet pipe, tubular hollow container provided in the area between its center and the closed end pivotably suspended and in its pivoting movement End stops is limited to which also in the area of its closed end Taring weights of such a size are attached that the center of gravity of the with the tare weights loaded, unfilled hollow container between the closed End of the hollow container and the perpendicular through the pivot axis of the hollow container lies. This means that a water inlet that is already present in fish waters can reduce the for supply the necessary energy. The feed dispenser is thus practically on can be used in any fishing water.

A particularly simple pivotable attachment of the outlet pipe at the outlet port results from the fact that the outlet pipe by means of a Kind of a bellows formed, made of elastic material pipe sleeve is connected to the outlet port. When the outlet pipe is pivoted, it acts kneading the pipe sleeve onto the lining in it, thereby causing a safe further transport of the feed into the connected outlet pipe.

The fact that both the open end of the outlet pipe and the open end of the hollow container are above a common collecting container the one the fishing water leading pipeline is connected, the feed emerging from the outlet pipe is transferred from the hollow container to the Collecting container captured water poured out and transported into the fish water. A large-area distribution of the food in the fish water is possible because the pipeline at its end on the fishing water side with at least one branch is provided. This enables many fish to be able to move at the same time without interfering with one another get to the feed.

A particularly simple direct coupling of the outlet pipe to the Hollow container consists in that the outlet pipe at the open end of the hollow container rests on this and in a slot provided in the wall of the hollow container is led. An indirect coupling is by means of a pulley running over a pulley Rope possible.

According to a further embodiment of the invention, the accuracy the feed metering can be improved by the fact that the outlet pipe in relation is kinked in such a siphon-like manner on its two end positions that the to the pipe sleeve connected siphon section of the outlet pipe in the first end position at least runs horizontally or rising slightly upwards and which is the free end of the Outlet pipe forming siphon section in the second end position approximately horizontally runs. The siphon-like design of the outlet pipe ensures that regardless of the filling of the storage container and thus a different one Pressure on the lining sliding through the outlet port is in the kink of the Siphons always collect the same amount of feed, which is then in the appropriate End position of the outlet pipe is emptied.

The hollow container is expediently filled with water in that a pipe connected to a water reservoir is used as the feed device vertically above one between the open end and the pivot axis of the hollow body is arranged on this provided wall opening. So it takes there is no feed line that might impede the pivoting movement of the hollow container to be connected to the hollow container.

Because the vertical length of the tube is adjustable, can the water pressure in the pipe and thus the pressure supplied to the hollow container per unit of time Amount of water can be changed. By means of an outlet nozzle provided on the pipe a jet of water directed precisely at the wall opening can be achieved. aside from that the amount of water supplied can also be regulated by the size of the nozzle.

For this purpose, the outlet nozzle is expediently exchangeable on the pipe arranged.

If the water required to fill the hollow container is one of taken from a running water-fed storage tank, a for the exact Working of the feed dispenser requires even water pressure in the one at the Storage connected pipe achieved in that the water storage with a Overflow pipe is provided, the inlet opening in terms of height above the inlet opening of the pipe. The water level in the storage tank is raised through the overflow pipe always kept at the same level so that the water pressure in the pipe is constant is. Because the overflow pipe opens into the collecting tank, the fish water receives a larger narrow fresh water supplied.

The water flowing into the fish water from the water reservoir is intensely mixed with air by the multiple decanting or circulation and thus heavily enriched with oxygen. By using the invention The side effect of the feed dispenser is an improvement in the water quality.

On the basis of an exemplary embodiment shown in the drawing the subject of the application is described in more detail below. 1 shows an embodiment variant of a feed dispenser, in which the outlet pipe is coupled directly to the hollow container Fig. 2 is another embodiment of a feed dispenser in which the outlet tube is coupled to the hollow container via a cable pull.

3 along a section of the feed dispenser shown in FIG the line III-III.

1 with a storage container is referred to, at its funnel-shaped An outlet nozzle 2 is formed on the bottom. On the outlet nozzle 2 is a according to Art a bellows formed pipe sleeve 3, which is made of rubber or elastic Plastic consists, attached. At the other end of this pipe collar 3 is a Outlet pipe 4 connected. In the area of its free end 5 is the outlet pipe 4 at the open end 6 of a tubular hollow container 7 on this. For guidance of the outlet pipe 4 is a slot in the upper wall of the tubular hollow container 7 8 provided.

At its other end 9, the hollow container 7 is closed.

Between this closed end 9 and the center of the hollow container a cuff 10 is placed around the hollow container and this cuff is on one housing-fixed bracket 11 pivotally attached.

In the upper wall of the hollow container 7 there is a wall opening 12, to which a hose 13 is connected, which is fed from a water reservoir 14 will. A shut-off valve can be located between the water reservoir 14 and the hose 13 15 are provided.

At the closed end of the hollow container 7 is a guide rod 16 arranged for a taring weight 17. The tare weight 17 is set so that that in the unfilled state of the hollow container 7, the center of gravity of the with the Taring weight 17 loaded hollow container between the vertical 18 through the pivot axis 19 of the hollow container and the closed end 9 is located. Through an upper and a lower end stop 20 and 21 is the pivoting movement of the hollow container limited.

Below the free end 5 of the outlet pipe 4 and the open end 6 of the hollow container 7, a collecting container 22 is installed. The collecting container 22 has in its one wall a recess 23 into which the tubular hollow container 7 and the outlet pipe 4 immerse in the downward pivoting, as shown in dashed lines can. A pipeline leading into a fish water 24 is attached to the collecting container 22 25 connected. At its end 26 on the fishing water side, the pipeline 25 is connected a branch 27 is provided. By means of one or more floats 28 is the Pipeline 25 held on the surface of the fish water 24. The swimmer or swimmers 28 are dimensioned so that the pipeline to its end on the fishing water side 26 has a slope.

The feed dispenser works as follows: When empty, it takes the hollow container as a result of the tare weight 17 to the closed end 9 shifted focus is shown in the drawing with full lines Location a.

If water is now filled into the hollow container 7 via the Sdiauch 13, so with increasing filling of the hollow container 7 there is a shift in the center of gravity towards the open end 6 of the hollow container 7. Once the focus of the filling Hollow container 7 on the side facing the open end 6 of the hollow container 7 the vertical 18 is displaced, the hollow container 7 begins to downward tilt. The outlet pipe 4 resting on the hollow container 7 thus also tilts downwards. As a result of this tilting movement, the water filled into the hollow container 7 flows again from this into the collecting container 22.

At the same time slips out of the outlet pipe 4 in his with the pipe sleeve 3 connected end of the accumulated amount of feed and falls into the collecting container 22. By flowing out of the hollow container 7 water, the feed is through the Pipeline 25 transported into the fish water 24.

A large-area distribution of the takes place via the branch 27 Food in the fish water 24. Since after the emptying of the hollow container 7 the center of gravity is again on the other side of the perpendicular 18, the hollow container 7 tilts again back to the starting position shown and is filled with water again.

In the variant of the feed dispenser shown in FIG a hollow container 30 has a wall opening 31 on its upper wall, above which a pipe 32 connected to the water reservoir 14 is arranged vertically. At the lower end of the tube 32 is attached an outlet nozzle 33 through which the water exits in a targeted jet 34 and through the wall opening 31 into the llohlbehältcr 30 flows in. The tube 32 is adjustable in its vertical position, as by a double arrow 35 indicated. By changing the length of the tube 32 is the Water pressure in the pipe 32 and thus ultimately that flowing out of the outlet nozzle 33 Amount of water changed.

The hollow container 30 has an open end 36 and a closed one End of 37 on. In the area of the closed end are on one with the hollow container 30 connected guide rod 38 in turn tare weights 39 arranged.

By means of these tare weights 39, the focus of the unfilled Hollow container 30 are displaced so that it is on the closed end 37 facing side the perpendicular 18 through the pivot axis 19 lies. As a result of this position of the center of gravity, the hollow container 30 is clockwise tilted until it rests against a lower end stop 40.

In the area of its open end 36, a is on the hollow container 30 Cable 41 attached, which is guided over a pulley 42 and with his other End 43 is connected to an outlet pipe 44. The outlet pipe 44 is in contrast to the outlet pipe 4 in the embodiment according to FIG. 1 not formed in a straight line, but kinked like a siphon. With its one siphon section 45 is the outlet pipe 44 to the pipe sleeve attached to the outlet connection 2 of the storage container 1 3 connected. The other siphon section extended by an end pipe piece 47 46 forms the free end 48 of the outlet pipe 44.

As can be seen from the sectional view in FIG Water storage 14 connected to an overflow pipe 49, the inlet opening 50 in terms of height is above the inlet opening 51 of the pipe 32. Through the overflow pipe 49 is the The water level 52 in the water reservoir 14 is always kept at the same level. That Overflow pipe 49 opens into the collecting container 22, so that the overflow pipe 49 outflowing water is fed to the fish water via the pipe 25. the Fig. 3 also shows the hollow container 30 in its tilted down position. In this position, the hollow container 30 is immersed in the one provided on the collecting container 22 Recess 23 and comes to the lower boundary edge 53 of the recess 23 to the system. This lower boundary edge 53 thus forms the other end stop.

The individual components of the feed dispenser can be shown in a dashed line Line indicated housing 54 be installed. This will counteract the feed dispenser Protected against environmental influences.

If the hollow container 30 is filled with water via the pipe 32, then occurs in turn, this filling of the hollow container causes a shift in the center of gravity a. As soon as the center of gravity of the filled hollow container is on its open end 36 comes to lie facing side of the perpendicular 18, the hollow container 30 tilts counterclockwise downwards. The water in the hollow container 30 in the process flows into the collecting container 22. When the hollow container 30 is tipped down the cable 41 is tensioned and thus the outlet pipe 44 into the one shown in dashed lines Swiveled position.

The siphon-like part of the outlet pipe 44 is designed so that the connected to the pipe sleeve 3 siphon section 45 in the first, with full Lines shown end position of the outlet pipe 44 at least horizontally or slightly runs inclined upwards. This ensures that it is in the outlet pipe 44 located lining 55 in this end position of the outlet pipe 44 only up to the inner Kink edge 56 of the siphon can fall out of the outlet pipe 44.

When the hollow container 30 is tipped down, the outlet pipe 44 becomes in pivoted its second end position shown in dashed lines. In this end position is the siphon section 45 connected to the pipe sleeve 3 is inclined sharply downward. The other siphon section 46 takes an almost horizontal position in this end position a. The lining 55 can due to the steep inclination of the siphon section 45 after slide down into the siphon bend. Due to the almost horizontal position of the Siphon section 46, however, the lining 55 cannot fall out of the outlet pipe 44. Only when the hollow container 30 swings back upwards again after it has been emptied, the outlet pipe 44 also pivots back into its first end position. That before In the second end position, feed slipped into the siphon curve now falls the end the outlet pipe 44 out into the collecting container 22 and is from that in the collecting container 22 located water is now flushed into the fish water 24 via the pipeline 25.

Due to the siphon-like design of the outlet pipe 44, one succeeds exact portioning of the feed quantities, as the siphon causes an uncontrolled Slipping of the feed is prevented.

A programming of the feed dispenser is possible in that, for example the water shut-off valve 15 is blocked or opened by means of a timer. In the embodiment according to FIGS. 2 and 3, such a water shut-off valve be arranged in the supply line 57 leading to the water reservoir 14. At a such programming of the feed dispenser can be in the storage container 1 for several days of feed can be filled in.

A water drainage pipe, for example, is suitable as the ileal container 7 or 30 with a diameter of 100 mm and about 700 mm in length. The cuff 10 for suspension this tube is about a third of the length from the sealed end 9 or 37 of the hollow container attached. With the tare weights 17 and 39, respectively the center of gravity of the pipe is shifted until it hits the lower end stop 21 or 40 tips.

In the embodiment shown in Fig. 2 and 3 is the Position of the wall opening 31 taken so that the hollow container is filled with water can be that the focus of the filled hollow container 30 on the open End 36 facing side of the perpendicular 18 comes to rest.

Appendix During test runs it turned out that the device was still can be simplified. Add a graphic illustration of this simplification i at.

The feed metering part is not operated as before with the open side of the hollow container (30) but vice versa with the closed one Page. For this purpose, the hollow container is hung up pivoted by 180 degrees.

The collecting container (22) underneath is extended so that he can grasp the flowing water.

The water flows backwards when the bottom of the tank is slightly sloping back and takes the dry food with him.

The pipeline (25) connected to the collecting container (22) is on attached to a tension wire or rope hoist hanging over the water surface and conducts so the water with feed to the desired place.

Claims (1)

Claims 1. Food dispenser for fish, in which the food is a at its funnel-shaped bottom an outlet port having storage container can be removed in portions and introduced into the fish water, d a d u r c h g e k c n n -z e i c h n e t that an outlet pipe (4 or 44) pivotally attached and by a drive (7 or 30) periodically from a first end position is pivoted into a second end position, the outlet pipe (4 resp. 44) in the first end position assumes such a position that from the storage container (1) only a certain amount of feed in the area of the swivel-mounted The end of the outlet pipe (4 or 44) slips and one in the second end position Assumes position that the lining (55) slips out of the outlet pipe (4 or 44) and enters the fish water (24). 2. Feed dispenser according to claim 1, d a d u r c h g c -k e n n z e i c h n e t that as a drive a closed at one end (9 or 37), Can be filled with water via a feed device and in the area of its open end (6 or 36) directly or indirectly with the outlet pipe (4 or 44) coupled tubular Hollow container (7 or 30) is provided in the area between its center and suspended from the closed end (9 or 37) so as to be pivotable and in its pivoting movement by end stops (20, 21 or 40, 53) is limited to deni also in the area its closed end (9 or 37) tare weights (17 or 39) of such Size are appropriate so that the center of gravity of the tare weights (17 or 39) loaded, unfilled hollow container (7 or 3 ()) between the closed End (9 or 37) of the Ilohlbehälters (7 or 30) and the perpendicular (18) through the Pivots axis (19) of the hollow container (7 or 30) is located. 5. Feed dispenser according to claim 1 or 2, d a d u r c h g c k e n n z e i c h n e t that the outlet pipe (4 or 44) by means of a bellows-type formed, made of elastic material pipe sleeve (3) on the outlet port (2) is connected. 4. Feed dispenser according to claim 2, d a d u r c h g e -k e n n z e i c h n e t that both the open end (5 or 48) of the outlet pipe (4 or 44) as well as the open end (6 or 36) of the hollow container (7 or 30) over a common one The collecting tank (22) is attached to a pipeline leading into the fish water (24) (25) is connected. 5. Feed dispenser according to claim 4, d a d u r c h g e -k e n n z e i c h n e t that the pipeline (25) at its end (26) on the fishing water side at least one branch (27) is provided. 6. Feed dispenser according to claim 2, 3, 4 or 5, d a -d u r c h g e it is not indicated that the outlet pipe (4) is at the open end (6) of the hollow container (7) rests on this and is provided in one in the wall of the hollow container (7) Slot (8) is guided. 7. Feed dispenser according to claim 2, 3, 4 or 5, d a -d u r c h g e it is not indicated that the outlet pipe (44) is by means of a pulley (42) running cable (41) is coupled to the hollow container (30). 8. Feed dispenser according to claim 7, d a d u r c h g e -k e n n z e i c h n e t that the outlet pipe (44) is so siphon-like with respect to its two end positions is kinked that the siphon section connected to the pipe collar (3) (45) of the outlet pipe (44) in the first end position at least horizontally or slightly up rising and which the free end (48) of the outlet pipe (44) forming siphon section (46) in the second end position approximately horizontally runs. 9. Feed dispenser according to claim 2, d a d u r c h g c -k e n n z e i c h n e t that a feed device connected to a water reservoir (14) Tube (32) perpendicularly above one between the open end (36) and the pivot axis (19) of the hollow body (30) is arranged on this wall opening (31) provided. 10. Feed dispenser according to claim 9, d a d u r c h g c -k e n n z e i c h n e t that the vertical length of the tube (32) is adjustable. 11. Feed dispenser according to claim 9 or 10, d a d u r c h g e k e n It is noted that the pipe (32) is provided with an outlet nozzle (33). 12. Feed dispenser according to claim 11, d a d u r c h g c -k e n n z e i c h n e t that the outlet nozzle (33) is replaceable. 13. Feed dispenser according to claim 9 with one of a rl ießenden Water-fed water storage tank (14), which is not shown that the water reservoir (14) is provided with an overflow pipe (49), the inlet opening of which (50) is in terms of height above the inlet opening (51) of the pipe (32). 14. Feed dispenser according to claim 4 and 13, d a d u r c h g e k e n It is noted that the overflow pipe (49) opens into the collecting container (22). 15. Feed dispenser according to claim 2, 3, 4 or 5 d a d u r c h g e k e It is noted that the outlet pipe (44) by means of a short chain (58) without Deflection roller connected directly to the closed side of the hollow container (30) and can be set in motion. The pipeline (25) connected to the collecting container (22) is on attached to a tension wire or cable hanging over the surface of the water. 16. Since other substances such as Fertilizer (especially lime in acidified waters) is transported I ask that the claim not only be restricted to dry fish feed.