DE1163075B - Automatic device for the rationed feeding of pigs - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Kl .: A Ol k

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File number:
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German class: 45 h -5/02

1163 075
L 40598 III / 45 h
December 1, 1961
February 13, 1964

The invention relates to an automatic device for rationed feeding of pigs, in which Above one or more feed troughs arranged next to one another, a feed channel closed on all sides with a screw conveyor and with one extending over the entire length of the feed channel, movable for the purpose of ejection of feed Wall part is provided.

For the best possible utilization of the feed, especially when fattening pigs, the so-called rationed feeding is common, d. This means that each time the pigs are fed, they are given a certain given amount of feed determined according to nutritional criteria. This amount of feed depends on the one hand on the age of the animals and on the nutritional value and other properties of the used Fodder off.

Automatic feeding devices are already known. In such a known device are on a feed channel containing a conveyor foil several outlets are attached, each of which has a height-adjustable hinged floor contain. The individual hinged shelves can be locked at different heights, so that a certain amount of feed accumulates in each of the outlet shafts in question. Furthermore is at this known device an auxiliary outlet nozzle is provided, which after filling all the outlet shafts actuates a switch that stops the screw conveyor and triggers the discharge shaft bottoms caused. In this way, each feeding place becomes that in the associated discharge shaft contained feed poured in.

In this known device, it proves to be disadvantageous that on the one hand the amount of feed in the individual Outlet shafts can only be adjusted in stages and not continuously and that on the other hand the feed is not spread evenly into the feed trough, but in such a way, that piles of food collect directly under the individual discharge shafts. This uneven Distribution of the feed in the feed troughs is very undesirable, especially when fattening pigs, because it has been shown that the best master's success is achieved when this is for the individual animals The available feed is evenly distributed over the length of the feed trough, otherwise the individual Animals can receive different amounts of feed.

In other known devices are on a feed channel containing a screw conveyor Filling openings provided, derea ^^ ße through a

c / y 'lirtrtfr'n,

Self-acting device for rationed
Feeding pigs

Applicant:

Georg Langenegger, Petersdorf (Kr.Aichach) 24

Named as inventor:

Georg Langenegger, Petersdorf (Kr.Aichach) - -

slide or can be adjusted by permanently installing panels. Adjusting the amount of feed to the different feeding places is however not necessary for the pig breeding with the help of diaphragms Accuracy feasible. Even with such devices, there is no uniform distribution of the feed along the feed trough achieved. There is another disadvantage of the known devices when used for rationed feeding of pigs in that the pigs are insufficient are protected from moving parts and thus from injuries. So it should be with the known Facilities must be provided with special protection, which in turn makes the system more expensive.

The invention is based on the object of overcoming the disadvantages mentioned and a uniform Distribution of the feed over the length of the feed trough and a stepless adjustment of the feed amount to ensure.

The invention is based on an automatic device for the rationed feeding of pigs, in which above one or more feed troughs arranged next to one another a closed on all sides Feed channel arranged with a screw conveyor and with one extending over the entire length of the feed channel extending for the purpose of feed ejection movable wall part is provided. The above The object of the invention is achieved in that this wall part of one or more to one the shaft parallel to the screw conveyor axis is pivotable bottom flaps, which are located in the closing area with their outer edges a circular arc-shaped counter wall coaxial with the shaft coated, and that the Bottom flaps adjustable in terms of their angular position to the screw conveyor in the area of the opposing wall are.

In a preferred embodiment of the invention, the bottom flaps are fixedly attached to the shaft. In addition, the shaft carries a lever arm,

409 508/24

3 4

on which a length-adjustable traction The feed is articulated via the feed device 9. for example fed from a silo. For introductory details of the invention, the switch T is operated in the following on a feeding device, so hand of the accompanying drawings, for example, that the electric motor 7 starts up and the feed is described by means. It represents 5 of the conveying means 10 and the screw 5 supplied to F i g. 1 is a partially sectioned view of a. According to the invention, the feed channel 3 will therefore be filled with feedstuff in a completely automatic feeding device. When the feed manure, channel 3 is filled, the piston 20 is below the figure. 2 shows a section along the line II-II in FIG. 1, pressure of the feed F i g moved by the screw 5. 3 shows a view of a further embodiment with its contact member 20 'opening the switch 22, form of the invention and whereby the electric motor 7 is stopped and FIG. 4 a section along the line IV-IV into further feed supply is omitted. At the same time, Fig. 3. the normally closed contact r of the relay /? closed, so that Fig. 1 shows a feed trough 1 with side walls 2. the motor 18 starts up and a variety of eccentric 16, 16 a, the bottom flap 14 number of such feed troughs can be arranged side by side via the shaft 17 and with stall boxes lying next to one another opens. Be the feed contained in the feed channel 3. Above the feed troughs there is an emptying into the individual feed troughs. The floor guide channel 3, which closes a flap 14 on a shaft 4 when the motor continues to rotate, contains a screw conveyor 5. The shaft 4 is 18 again from the feed channel 3 downwards. Via a clutch 6 with a motor 7 connected 20 means of a not shown, known Kon- and in a known manner in bearings 8 and 8 'clock member, the current flow of the self-holding relay 5 is stored. After a full revolution of the eccentric, the chuck is interrupted from a non-drift 16, for example. After the feed has been dispensed, the automatic feeding silo is removed and fed via a feed device to the device 9, which conveyor, which is known per se, stops the feed troughs again and contains the means 10 for the next one. The conveying means 10 are ready for the feeding process.

a belt drive 11 is driven. By means of further couplings, not shown, instead of the piston 20, it is possible to drive switching means for stopping the motor 7 and for driving only the shaft 4 or the conveying means 10. Use engine 18 start-up. It is possible, for example, to arrange a pressure membrane at the end of the feed channel 3 by a solid counter-wall 12, which is conveyed by the screw 5 circularly with respect to the axis of a shaft 13 The lining is pressed in and runs in a curve. On the other hand one closes firmly and thereby actuates a switching contact,
The bottom flap 14 hinged to the shaft 13 is a further embodiment of a feeding guide channel downwards. The shaft 13 can with 35 device according to the invention is shown in Fi g. 3 and by means of a push rod 4 acting on an arm 15. Corresponding parts can be adjusted with the same 16. This rod 16 has a short reference numerals as in FIGS. 1 and 2, at 16 a and a shaft 17 to an electric motor 18 Fi g. Figure 3 shows four juxtaposed chucks connected. Furthermore, the length of the rod 16 is troughs la, lb, lc and id, which each belong to adjacent stable boxes which can be changed by means of tensioning members 19 known per se. Of course, further feed troughs can be provided. The feeding troughs belonging to various stall boxes at the end of the feed channel 3 is a piston are arranged 20, which is held by a compression spring 21 in a position separated from one another by partitions 23, 23 α and 23 b. One attached to the piston 20 divided. The supply channel 3 extends over ter contact pin 20 'serves to actuate a scarf 45 all feeding troughs and is in the range of each diester 22 to the terminals α and b is the switching feed boxes by a pivotable, in each case with the circuit of the electric motor 7 connected. This fixed opposite wall 12 cooperating floor circuit is supplied from a power source 23 with flap 14 a, IAb, 14 c or 14 d downward electrical energy. A switch T with a closed. The flaps 14 a to 14 d are each on self-holding contact is used to switch on the electrical 50 of a shaft 25 a, 25 b, 25 c suspended in bearings 24 motors 7. Furthermore, a or 25 d is attached to the switch-on circuit. Above the shafts 25 a to 25 d provided latching relay R, whose rest contact is r is an all over the length of feeding troughs is ergeöffnet as long as the electric motor is running. 7 In the stretching circuit of the electric motor 18 attached to the supply duct 3, there is often 26 mounted shaft 13 '. To Verdreweiterhin a self-holding relay S, which under the 55 hung of the shaft 13 'is an arm 15', which with the action of a contact member, not shown, the one push rod 16 'and a crank 16 a' opens together-switching circuit of the motor 18 as soon as the menacts . The shaft 13 'carries in the area of each shaft 17 of the eccentric drive 16,16 a a full um- bottom flap 14 a to 14 d has made a fixed rotation with the shaft 13'. connected arm 27 a, 21b, 27 c and 27 d. To Ver-The automatic feeding device according to the acquisition ⁶ ° binding of each bottom flap with the zugehörifindung operates in the following manner: First gen arm is in each case an adjusting member in the form of the length of the push rod 16 by means of clamping grub screw 28 a, 28 b, 28 c or 2Sd adjusted with a member 19 so that the spherical end part, z. B. 29 c, which in a with face bottom flap 14 certain cross section of the associated bottom flap, z. B. 14 c, connected guide channel of the desired rationed feed 65 ball joint, z. B. 30 c is used. Corresponds to each thread quantity. Mark the desired amount of feed, ζ. B. 28 c, is in each case by means of two nuts 31 is correct, as already said, according to the feed requirement compared to the associated arm 27 c, the animals and according to the nutritional content of the feed. Furthermore, in the upper end part of each intermediate

Intermediate wall 23, 23 α, 23 b one or more holes 32 are provided.

In addition to the fixed, lower end wall 12 of the feed channel 3, a cylindrical jacket-shaped section 33 is provided as an extension of the upper cylindrical end wall of the feed channel 3, which section extends to approximately perpendicular below the shaft 4 'of the screw 5' and, among other things, also to support the screw 5 'serves. The individual intermediate walls 23, 23 α and 23 b each extend approximately as far as the continuation of the cylindrical jacket-shaped section 33.

This embodiment of the invention operates in a similar manner to the embodiment of the invention described at the outset. In the embodiment of the invention described first, each individual stall box or each individual feeding place can only be supplied with an identical, adjustable amount of feed. Usually, however, it is the case that animals of different ages with different feed requirements are housed in the various stall boxes. The embodiment of the invention according to FIGS. 3 and 4 make it possible to feed a certain adjustable amount of feed to each stall box, which is different from the feed quantities of the other stall boxes. Each adjustable bottom flap 14 α to 14 d can by means of the adjusting members 28 «to 28 c? be adjusted so that the stall box concerned is supplied with a desired amount of feed. F i g. 3 shows a setting of the individual bottom flaps in which the cross-section of the feed channel is greatest in the area of the feed trough 1 d , so that the largest amount of feed is fed to the feed trough 1 d with each feeding. The bottom flap 14 c is set to its minimum value, so that the feed trough 1 c is allocated the smallest possible amount of feed with each feeding process. The two remaining bottom flaps 14 ″ and 14 ″ are set to intermediate values. It is also possible to completely stop the distribution of feed in a certain stall box if the stall box in question is not occupied by animals. For this purpose, the adjustment member in question, for. B. 28 c, solved and the relevant flap, z. B. 14 c, is in its smallest setting by means of in the openings 32 of the adjacent partition walls, for. B. 23 a and 23 b, suspended retaining pins held so that no feed is dispensed in the relevant feed trough 1 c.

The feeding process is also controlled in the manner described above with reference to the embodiment according to FIGS. Once the feed channel 3 is completely filled with feed, 'the switch 22 is opened so that by the motor 18 via the eccentric 16 a', for example, by means of the contact member 20 ', 15', the various bottom flaps are opened 14 α d to 14, 16 . After the shaft 17 has made one revolution, the motor 18 is automatically stopped and the bottom flaps 14 α to 14 d are again in the previously set position.

Particularly when a large number of stall boxes are arranged next to one another, the screw 5 has a considerable amount Length, so that their storage is difficult. Bearings that are too heavy can thus be avoided that the screw rests on the cylinder jacket-shaped section 24 of the feed channel. In this case, the screw flights are provided with a self-lubricating plastic coating. Relatively simply and easily constructed end bearings for the shaft 4 'then suffice.

The bottom flaps 14 or 14 a to 14 d must each be held firmly in their set position. For this purpose, it is advantageous to provide tension elements, for example springs, which act on the arm or 15 ', for example, and which are not shown in the figures, which ensure an exact return of the individual flaps in each case.

An automatic feeding device according to the invention is particularly suitable for fattening pigs. However, the device can also be used with advantage for silo feeding of cattle.

Claims (9)

Patent claims: 1. Automatic device for the rationed feeding of pigs, in which above one or several feed troughs arranged next to one another and a feed channel closed on all sides with a screw conveyor with one extending over the entire length of the feed channel for the purpose of ejection of feed movable wall part is provided, characterized in that this wall part consists of one or more pivotable about a shaft (13) parallel to the screw conveyor axis There is a bottom flap (14) which, in the closing area, has a circular arc-shaped, to the shaft (13) coaxial opposite wall (12) coated, and that the bottom flaps (14) with respect to their angular position to the screw conveyor (5) in the area of the opposite wall (12) are adjustable. 2. Device according to claim 1, characterized in that the bottom flaps (14) on the Shaft (13) are firmly attached and the shaft (13) carries a lever arm (15) on which a adjustable in length push rod (16) is articulated. 3. Device according to claim 1, characterized in that the bottom flaps (14 a, 14 b, 14 c, 14 d) belonging to the individual feed troughs (la, lb, lc, ld) are articulated on hinges and that one with several, arms connected to the associated flap and actuated via an eccentric rod (16) are provided. 4. Device according to claim 3, characterized in that between each arm and the associated flap (14 a, 14 b, 14 c, 14J) an adjusting member (28 a, 28 b, 28 c, 28 d) is provided by means which the distance between the arm and the associated flap is adjustable and variable. 5. Device according to one of claims 1 to 4, characterized by on the arm (15 or 15 ') acting return springs. 6. Device according to one of claims 1 to 5, characterized in that the, the envelope of the screw conveyor, for the most part, forming the cylinder wall up to perpendicularly below the shaft (4) is led. 7. Device according to claim 6, characterized by a plastic coating on the Snail threads. 8. Device according to one of claims 1 to 7, characterized by one at the end of the Feed channel (3) arranged inside the same against the action of a spring (21) displaceable piston (20), which has a con clock finger (20 ') for actuating a switch (22) carries. 9. Device according to one of claims 1 to 7, characterized by one, at the end of the Considered publications: U.S. Patent Nos. 2,811,288, 2,940,639, 2,961,126; Feed channel (3) arranged membrane, 5 "Landtechnik" magazine, issue 21 of November which cooperates with a pressure contact. 1961, pp. 738 to 743. 1 sheet of drawings 409 508/24 2.64 © Bundesdruckerei Berlin