NL9200098A - Automatic control and monitoring system for milking parlour - Google Patents

Abstract

One robot arm guides cleaning mechanisms around the teats (7) of the cow (A) and then the other aligns the four suction cups (6) with the teats. Negative pressure is then applied to start the milking process. The flow from each teat is monitored and the negative pressure released when the flow drops below a preset level. Each cup can be remotely removed from the teat by electromagnetic actuators. A laser guided mechanism positions the cups within 20 mm of the teats.

Description

MILK MACHINE

The invention relates to a milking machine with a number of teat cups which can be connected to a number of teats of an animal.

Although milking machines are known in many embodiments, the construction of these machines is not always such that the sensitivities of the animal are sufficiently taken into account. In particular, can this cause irritation of the teats or even inflammation of one or more quarters of the animal's udder? however, even without obvious symptoms of disease appearing, the milk obtained may have an excessively high cell count.

The object of the invention is to avoid the drawbacks described here to a considerable extent.

According to the invention, the milking machine as described in the preamble has the feature for that purpose that the milking machine comprises teat cups and a carrying member for this purpose and the teat cups and their carrying member are designed and arranged in such a way that the teats can be connected to an animal to be milked at a distance of at least 20 mm from the teats. This also allows animals with different udders or relatively small dairy animals to be connected to the milking implement.

The invention also relates to a milking machine as described in the preamble, characterized in that the milking machine is arranged such that a laser or such a detecting device first determines the location of a rear teat of the animal, then the location of the neighboring rear teat, wherein a teat cup can be coupled to the relevant teat after the position has been determined, while the machine is further arranged to subsequently detect the front teats and connect them to the teat cups. This makes the connection process of the teat cups favorable.

The invention also relates to a milking machine as described in the preamble, characterized in that the milking system comprises at least two different installations, such as a milking installation and a cleaning installation, and these two installations are arranged on a milking parlor accessible from the same side. . This makes it possible to arrange the entrance and exit doors on one and the same opposite side than the side on which the milking installation and the cleaning installation are arranged.

The invention also relates to a milking machine as described in the preamble, characterized in that, at a distance from the milking machine, preferably in another building such as the house, indication means such as a lamp or a buzzer are provided, with which it can be seen whether milking machine functions properly or does not function properly. This allows a favorable control of the milking process.

The invention will now be further elucidated with reference to the annexed figures.

Figure 1 is a top view of a milking parlor with a milking robot, in which the outline of a dairy animal, in the present case a cow, is indicated;

Figure 2 is a view of the milking robot according to the arrow II-II in Figure 1;

Figure 3 is a top view of an enlarged part of the arm of the robot, on which teat cups are located;

Figure 4 is a side view according to arrow IV in

Figure 3;

Figure 5 is a top view in accordance with Figure 3, schematically showing the position of the teat cups relative to and the attachment to the robot arm during milking of an animal;

Figure 6 is a side view according to arrow VI in

Figure 5;

Figure 7 is a cross-sectional view along line VII-VII in Figure 3;

Figure 8 shows, in a view in accordance with Figure 6, an alternative embodiment of the attachment of the teat cups to the robot arm;

Figure 9 shows a schematic plan view in accordance with Figure 1, in which the milking robot also comprises a cleaning device for the teats of the cow;

Figure 10 is a rear view of a milking parlor provided with a semi-automatic milking implement;

Figure 11 is a schematic top plan view of the milking implement of Figure 10 on another scale.

Corresponding parts in the figures are indicated with the same reference numerals. The invention is by no means limited to the embodiments shown and described here; these only serve to illustrate the inventive idea.

Figure 1 shows a milking parlor in which a dairy animal, in the present case a cow A, is present within a fence, consisting of the front fence part 1, the rear fence part 2 and the fence doors 3 and 4. The milking parlor is provided with a milking robot 5, with which teat cups 6 can be connected to the teats 7 of the udder of cow A which are shown schematically. For a rough determination of a necessary starting position, the milking robot cooperates with a contact member 8. The contact member 8 is with the aid of a stepper motor 9, a screw spindle 10 connected thereto and a straight guide 11 over a horizontal support 12, which forms part of the rear fencing part. 2, movable. " Such a carrier 12 can also be arranged against or next to an existing fence. The milking parlor comprises a computer system 13 which controls a feeder. The computer system 13 of the automatic feeder operates independently of a computer system 14 for the milking robot and, whenever it detects, recognizes and additionally accepts a dairy animal de in the milking parlor 1, it places a quantity of feed adapted to the animal in a feed trough 15 which the front fencing part 1 is fitted.

The dairy animal is provided with a collar 16 to which two separate indicating and information members 17 and 18 are arranged. Each of these individually serves one of the two computer systems 13, 14 in order to ensure the independent operation of both computers. An indication device 19 is further arranged on the milking parlor for measuring the milk flow which comes from a teat 7 of the udder of the animal A. For each of the teats there is a light point 20, which lights up when it has been determined via a sensor in a teat cup 6 or in the milk line 21 of a certain cup 6 that the milk flow has fallen below a certain adjustable value. The display device 19 may also be provided with two light points for the milk flow from each teat 7, one of which lights up green during milking and the other lights up red when the milk flow from a related teat has fallen below the set threshold value. In yet another embodiment, the indication device is acoustically designed in the form of a buzzer.

The milking robot 5 is slidably mounted on a horizontal carrier 12 forming part of the milking shed, i.e. in the direction of the imaginary line between the head and tail of the dairy animal A located in the milking shed. the rear fencing part 2. For this purpose, the milking robot 5 comprises a straight guide 22, a stepper motor 23 which drives a screw spindle 24, which engages the straight guide 22. The stepper motor 23 is herein controlled by the computer 14 of the milking robot.

Figure 2 shows on the underside of the straight guide 22 a holder 26 which is pivotally mounted about a shaft 27 fixed vertically to the straight guide 22. A telescopic arm 29 is mounted on the holder 26 about a horizontal axis 28. fixed part 30 and a part 31 slidable therein. A carrying member 33 for the teat cups 6 is arranged at right angles to the end of the slidable arm part 31. The carrying member 33 comprises a cabinet part 34 and a landing part part 35, which are integral in this embodiment. The slidable arm part and the teat cups thereon can be moved relative to the fixed arm part 30 by means of a screw spindle 48 which engages a screw element 49 at the bottom of the support member 33. The screw spindle 48 is driven by a stepper motor 50 which is moved by the computer system 14 of the milking robot 5 is controlled.

The arm 29 is supported and pivotally pivotable with respect to the holder 26 by means of an adjusting cylinder 37. The piston rod thereof engages near the center of the fixed arm part 30 on a horizontal axis 38 which is fixed between two lips on the fixed arm part. The adjustment cylinder 37 is arranged in the extension of the arm 29 and thereby extends under the end of the vertical axis 27 to a holder arm 40 of the holder 26. The cylinder part of the adjustment cylinder 37 is supported relative to the holder arm 40 via a rod 41 arranged in the extension of the cylinder, which is passed through a bore in a block 42 and which block 42 is hinged to the holder arm 40 via horizontal stub axes 43. An adjusting nut 44 is arranged at the end of the sliding rod 41, which is provided with a thread. A compression spring 45 is arranged between the cylinder part of the adjusting cylinder 37 and the block 42, and a second compression spring 46 between the adjusting nut 44 and the block 42.

Figures 3 and 4 show a laser device 52 'on the carrier member 33. The computer of the milking robot 5 determines the position of the carrier member 33, and thereby the position of the teat cups 6, with the aid of a placed on the carrier member 33 and above the teat cups protruding laser device 52 which gives signals to the computer 14 on the basis of reflected radiation, so that the position of the teats 7 relative to the carrying member 33 can be determined. The laser device 52, viewed with respect to the udder of the animal A, is placed near the teat cups disposed on the head side of the animal on an imaginary mirror line transverse to the arm 29 between the four teat cups. The front teat cups 6 are less spaced than the rear pair of teat cups, so that each heart of a teat cup 6 indicates a point for the lines of an imaginary arrowhead, which is seen in top view, facing the udder.

In the cabinet part 34 of the support member 33, four perpendicularly arranged on the arm 29, there are four fixedly arranged cylinders 51 which can be operated pneumatically or hydraulically via supply hoses 47. A puller 53 is connected to the piston pliers 55 of each of the cylinders 51, which is connected to a teat cup 6, in the rest position the piston rod 55 of a cylinder 51 is retracted so far that a teat cup 6 abuts a contact surface 54 on the landing part 35 of the support member 33 is pulled.

Figures 5, 6 and 8 show the arrangement of the teat cups 6 during milking. The pulling member 53 is not tightened in these figures, so that the milked animal A can move freely from the robot arm 30. A contact surface 54 has a curvature which at least more or less corresponds to the circumferential curvature of a teat cup 6. A contact surface 54 is arranged on the carrying member 33, which has the form of an approximately square tube 34. The pulling member 53 is preferably between upright walls of the tube are provided so that a stable contact of cup 6 against contact part 35 is obtained at all times. In the present embodiment, the contact surface 54 consists of wall 58 closing off the tube 34, in which one or more opening fingers 60 for the trigger member 53 are arranged. The openings 60 have a conical shape, so that the trigger 53 can be pulled smoothly through the opening 60 at different angles. A trigger 53 is connected to a piston rod 55 via an intermediate piece 59. The intermediate piece may be of the isosceles triangle shape, the intermediate piece 59 being hingedly connected to the piston rod 55 near the apex angle of said triangle shape. According to a first embodiment, as shown in Figure 6, a pulling member 53 consists of two cables or cords of a suitable flexible material, which cables are attached at one end to the side, i.e. to an upright wall of a teat cup 6. The other end can be mounted on the intermediate piece 59. According to an alternative embodiment, shown in Figure 8, "the puller 53 consists of a belt or belt 53A extending in an upwardly facing plane.

Figure 7 shows, in cross-section, a flattened tube 39 on the underside of the bottom wall 57 of the carrying member 33, through which the milk lines 21 of the teat cups 6 have been passed for protection. Such a tube 39, in which other pipes can also be guided, prevents the robot arm 29 with its pipes and wires from getting caught behind any obstacles.

Figure 9 shows a milking parlor with a cow A, the robot comprising a teat cleaning device 63 and a milking device 5. The robot not only milks the cow A, but first cleans its teats 7. When the cow A enters the milking parlor through the entrance door 3, the teat cups 6 are in position B1 and the teat cleaning device 63 in position C1. As soon as the cow A is in the milking parlor, the teat cleaner 63 rotates 180 ° to the position C2. The cleaner 63 then moves along the horizontal carrier 12 to position C3. In these movements, the cleaner 63 is somewhat lower than the horizontal carrier 12, so that it can move favorably underneath it. The teats are cleaned in position C3. The cleaner then moves to position C2 again and the teat cups automatically move from position Bl to position B2, which last position corresponds to position C3 of cleaner 63. The laser detector 52, or another detector, determines the position of the teats 7 , which are then automatically mounted. When the cow A has been milked, the teat cups 6 return to position Bl and, after another cow A has entered the milking parlor, the teat cleaner 63 returns to position C3 and the described process is repeated.

Figure 10 shows a rear view and Figure 11 a reduced top view of the milking parlor, in which a manually operated milking machine 65 is arranged against the wall of a milking pit 73. The teat cups 6 are here also arranged, as with the milking robot 5 already described, on an arm 66 extending approximately horizontally and movable in all directions. The arm 66 is pivotable in an upward direction about an axis and is mounted resiliently on the holder 68 by means of a compression spring 67 which rests on a holder 68. Due to this support, the teat cups 6 can easily be coupled to the teats 7. When a teat 7 no longer produces milk, the negative pressure in the relevant teat cup 6 automatically disappears. This promotes a low cell count of the milk and the chance of mastitus decreases.

The pneumatic cylinders 69, which disconnect the teat cups 6 from the teats 7 when the milk flow drops or falls below a certain adjustable threshold value, are arranged under the horizontal carrying arm 66. The height of the arm 66 with the cups 6 is adjustable with a lock 70 which comprises a pressing member 74 and which is also pivotable about the axis 72. The arm 66 is further arranged rotatably about a vertical axis 71, as shown in figure 11, the arm can be brought from a rest position E1 to an operating position E2 corresponding to C2 and C3 in figure 9. The lock 70 comprises a fixed knurled edge 73, but pivotable with the arm 66 about the upward axis 71, in which a catch 76 is attracted and clamped by an invisible tension spring. The arm 66 is hereby also fixed in height with teat cups 6. In order to connect the cups 6 to the teats 7, the arm 66 can be pivoted about the vertical axis 71 under the udder in position E2. Subsequently, the height can optionally be adjusted simply by lifting the catch 76, after which the push spring 67 raises the arm 66 and the cups 6. Lowering the arm 66 requires only a slight manual pressure of the arm 66. If the arm 66 has a suitable height under the udder, the farmer has both arms free to connect the cups 6, while the entire process of connecting the farmer is considerably less stressful than with the hitherto usual milking claws. Both the easier connection and the possibility to connect teat cups with two hands offer a farmer the opportunity to significantly increase his performance.

If the teat cups 6, as shown, are attached to the carrying arm 66 in an upwardly directed position during milking, it is not absolutely necessary to disconnect the teat cups 6 from the teat if the milk flow is lost. The teat cup 6 could remain attached to or near the teat, without any pressure being present in the teat cup, resting on a, preferably cup-shaped seat in a plateau on the end of the arm 66, until all four teat cups 6 have their milking function have ended.

The operation of the milking robot is explained in the following.

The carrying member has four teat cups 6, which are attached to a carrying member 33 by cables 53. The teats, when viewed from behind from left to right, could be numbered as follows: left behind D1, right D2, left for D3 and right for D4.

After the position of the teats 7 has been determined by the laser device 52 or another detector, the cups 6 move to the udder of the dairy animal A. The teat teat cup D1 is for instance first coupled. As soon as the cup 6 is connected to the teat 7 and milking takes place, the air pressure in the pneumatic adjustment cylinder 51 of this teat cup 6 drops and the teat cup 6 then becomes freely movable relative to the carrying member 33. If an electro-magnet for the confirmation is applied, the electricity of the electromagnet is currently switched off. Thereafter, the support member 33 automatically moves to teat D2, where the same happens. This coupling is also repeated for teats D3 and D4. During milking, the teat cups 6 are flexibly attached to the robot arm 29 by the milk hoses 21 and by two cables 53. This flexible attachment is favorable for the milk yield. The flexibility of the teat cup 6 attached to the teat 7 is further increased if the robot arm 29 is moved with one or more hydraulic or pneumatic cylinders and if the pressure on the oil or air in the cylinders, which changes the position of the determine robot arm, is removed. The coupled teat cups 6 can very advantageously also move in all directions in this way.

Furthermore, the free movement of a coupled teat cup 6 is still favored by the light and possibly flexible material from which the carrying member 33 and the robot arm 29 are made. The weight of this material is low and the mass forces are low.

When a teat 7 no longer produces milk, the underpressure in the teat cup 6 automatically drops and at the same time the two cables 53 pull the teat cup 6 into its seat on the carrying member 33. This sharp loss of the underpressure in the teat cup 6 and the withdrawal of the teat cup promote a low cell count of the milk. This reduces the risk of diseases such as mastitis and milking is more pleasant for the animal. After all teats have been milked, the robot arm rotates about 180 ° to a position outside the milking parlor and the cow can leave the milking parlor.

A computer 13 is arranged near the feeding trough, which controls the feeding system and, if necessary, makes further information available. This computer 13 can, for example, control the amount of feed that the cow is fed in the feed trough. The cow has a collar 16 which is part of the cow recognition system. Two indication information means 17, 18 are mounted on the collar 16 of the cow A. An information body cooperates with the computer-controlled feeding system. The other information member cooperates with the computer 14, which is arranged near the rear of the cow A and which provides the process control of the milking robot 5. If the feeding system and the milking system comprising the described milking and cleaning devices 5, 63, 65 and the computer 14 are arranged wholly or partly separately, the advantage arises that supplies and repairs of the individual systems are easier to carry out and are an automatic milking system can easily be used alongside an existing feeding system. The pressure springs 45, 46 arranged in the robot arm 5 result in a flexible up and down movement, whereby the weight of a teat cup 6 and carrying member 33 is reduced. As shown, the up and down movement of the teat cup 6 can take place pneumatically. A stepper motor can further adjust the length of the robot arm 29, which is telescopically extendable. The stepper motor constructions can be replaced by hydraulic or pneumatic cylinders or similar constructions. Due to the described straight guides 22, 29 along and transverse to the milking parlor and due to the possible pivoting about the axis 28, a teat cup 6, after activation of the respective stepper motor and / or adjustment cylinder, can be attached upwards, downwards and sideways at the end of the robot arm. and be moved in all directions. "

The milking implement can further still function properly if two teats of the cow are next to each other at a distance of only a few centimeters, for example 2 cm, since, for example, the rear teat cups D1 and D2 on their carrying member 33 are very close to each other in the initial position. applied. All this is important for a milking robot 5, which must always function unsupervised at night.

The constructions described in the description are often advantageously applicable in an automatically operating milking robot, but also in a fully or partially manually operated milking implement 65.

The milking implement with a number of teat cups 6, which can be connected to a number of teats 7 of an animal, such as a cow A, is preferably used in a walking stable for cows or the like. The milking system comprising the described milking and cleaning devices and the computer 14, and the feeding system can then be automatically designed and arranged such that the milking system and the computers 13, 14 controlling the feeding system, a cow, depending on the order in which they are the computer is registered to allow the milking parlor.

Furthermore, the milking system and the feeding system can be designed and arranged automatically such that the milking system and the computer 13, 14 controlling the feeding system control that the cows A which are at the start of a lactation period have more access possibilities to the milking parlor, than cows A, which are at the end of the lactation period.

The milking system and the feeding system can also be designed and arranged automatically in such a way that the milking system and the computers controlling the feeding system 13, 14 with serial numbers such as A1, A2, A3, A4, A5, etc., which are allocated to the cows A, are cows. Allow A in the parlor.

Furthermore, a cow A in a stable or the like can be automatically milkable, independent of any registration of the time that each cow was milked in a system-controlling computer 14 and independent of a predetermined time which has passed since the cow was last milked.

The invention is not limited to what has been described above with reference to the figures, but also relates to all details not described but shown in the drawings and in the claims. The invention also relates to all kinds of modifications to the exemplary embodiment, which of course fall within the scope of protection of the appended claims.

Claims (67)

Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking machine comprises teat cups and a carrying member therefor and the teat cups and their carrying member are designed and arranged such that the connection to the teats of an animal to be milked are possible at a distance of at least 20 mm from the teats. Milking machine according to claim 1, characterized in that the milking machine is arranged such that a laser or such a detecting device first determines the location of a rear teat of the animal, then the location of the adjacent rear teat, wherein a teat cup can be coupled to the relevant teat after the position has been determined, while the machine is further arranged to subsequently detect the front teats and connect them to the teat cups. 3. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking machine is arranged in such a way that a laser or the like detecting device first replaces the position of a rear teat of the animal then determines the location of the adjacent rear teat, wherein a teat cup can be coupled to the relevant teat after positioning, while the machine is further arranged to subsequently detect the front teats and connect them to the teat cups. Milking machine according to any one of the preceding claims, characterized in that the milking system comprises at least two different installations, such as a milking installation and a cleaning installation, and these two installations are arranged accessible from the same side on a milking parlor. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking system comprises at least two different installations, such as a milking installation and a cleaning installation, and these two installations are connected to a milking parlor from accessible on the same side. Milking machine according to any one of the preceding claims, characterized in that, at a distance from the milking machine, preferably in another building such as the house, indication means such as a lamp or a buzzer are provided, with which it can be observed whether the milking machine is functions properly or does not function properly. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that indication means such as a lamp or a buzzer are arranged at a distance from the milking machine, preferably in another building such as the house , which makes it possible to see whether the milking machine is functioning properly or not. 8. Method for milking animals, such as cows, with a milking machine with teat cups, whereby a teat cup is coupled to a teat, of the milk to be milked, and wherein at the end of a milking run by means of one or more sensors measure whether the milk flow has fallen below a certain threshold value, after which it is automatically regulated that the suction system in the teat cup is interrupted, such that the health of the udder of the animal is not adversely affected. Milking machine according to any one of the preceding claims, characterized in that at least one teat cup is arranged on a carrier member such that it is fixed to the carrier member relative to the carrier member, freely positioned in all directions during milking up to a relatively great distance can move. Milking machine according to any one of the preceding claims, characterized in that the teat cups are supported in the milking machine in such a way that the tensile force of a teat cup and its support member on the teat during operation is less than that of the own weight of a teat cup and its carrier. Milking machine according to any one of the preceding claims, characterized in that the teat cups are arranged on pivotable carrying members and a number of these carrying members are arranged at different heights relative to each other. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the teat cups are arranged on pivotable support members and a number of these support members are arranged at different heights relative to each other. Milking machine according to any one of the preceding claims, characterized in that the machine comprises a device with which the milking time of a quarter of an udder of the animal can be individually measured and recorded. Milking machine according to any one of the preceding claims, characterized in that the machine comprises a device with which the milk yield of a teat can be individually measured and recorded. Milking machine according to any one of the preceding claims, characterized in that the milking machine comprises four or more teat cups and the suction power of a teat cup can be automatically switched off independently of another teat cup, if the milk flow has dropped below a certain threshold value. Milking machine according to any one of the preceding claims, characterized in that one or more sensors are present, which individually removes the vacuum in a respective teat cup when the milk flow in the teat cup has fallen below a certain threshold value. Milking machine according to any one of the preceding claims, characterized in that a switching device is present, wherein the moment is optionally adjustable to switch off the vacuum in a teat cup in which the milk flow has fallen below a certain threshold value. Milking machine according to any one of the preceding claims, characterized in that for the coarse positioning of the teat cups and the laser device to be used for accurately determining the position of the teats, the center between the teat cups is approximately below the center between the four teats of the animal to be milked is brought. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that for the coarse positioning of the teat cups and the laser device to be used for accurately determining the position of the teats, the middle between the teat cups are placed approximately below the middle between the four teats of the animal to be milked, Milking machine according to any one of the preceding claims, characterized in that the machine comprises a laser installation for detecting a teat of an animal to be milked, as well as four teat cups which can be moved in a horizontal plane and which are automatically movable one after the other so that they are individually can be coupled to the four teats of the animal. Milking machine according to any one of the preceding claims, characterized in that the machine comprises a laser installation centrally arranged between the teat cups, which is arranged pivotally about an upwardly directed axis and the teat cups can be coupled one after the other to the teats of the animal. to be. Milking machine according to any one of the preceding claims, characterized in that the machine comprises a laser installation for detecting the location of a teat of an animal to be milked, as well as an air pressure installation for milking and for withdrawing by means of an air cylinder. the teat cup, after the milk flow in the teat cup has fallen below a certain threshold value. Milking machine according to one of the preceding claims, characterized in that the machine comprises a laser detector for detecting the location of the teats of the animal to be milked, as well as an installation with which individual teats after teats are attached to the milking machine is connectable. Milking machine according to any one of the preceding claims, characterized in that a device is present for milking to take place automatically with an adjustable periodicity. 25. Milking machine according to any one of the preceding claims, characterized in that the milking machine comprises a carrying arm, wherein four teat cups are arranged at the end of the arm and a teat cup after the teat cup has been attached to a teat of the milking animal. greater distance from the support arm than before attaching the teat cup to the teat. Milking machine according to any one of the preceding claims, characterized in that the machine comprises a device with which simultaneously or almost simultaneously stopping the suction system of a teat cup, as well as re-attaching the teat cup to the carrying arm, is possible. Milking machine according to any one of the preceding claims, characterized in that the machine comprises one or more teat cups which are arranged such that they maintain their position on the teat when the teat cup suction system is switched off. Milking machine according to any one of the preceding claims, characterized in that the disconnection of a teat cup from a teat of the milked animal is automatically feasible and the moment of uncoupling is variably adjustable. Milking machine according to any one of the preceding claims, characterized in that the machine comprises an indication device cooperating with a teat cup or a drain hose, for example in the form of a red or green lamp, so that it is visible when the milk yield from a teat cup has fallen below a certain threshold. Milking machine according to any one of the preceding claims, characterized in that the machine comprises a sound device co-operating with a teat cup or a discharge hose, for example in the form of a buzzer, so that it is audible when the milk flow in a teat cup is below a certain threshold value. come. Milking machine according to any one of the preceding claims, characterized in that the milking machine is arranged such that the teat cups can be connected to the teats of an animal in a controllable manner by means of its own computer system, while the feed of the animal can be controlled in another computer system. . Milking machine according to any one of the preceding claims, characterized in that the milking machine also comprises a device for after-treatment of the teats of the animal after milking. Milking machine according to any one of the preceding claims, characterized in that the milking machine also comprises a cleaning device for cleaning the teats, which is pivotable from a working position about an upwardly directed axis to a rest position and vice versa, and also to a straight guide movable. 34. Milking machine according to any one of the preceding claims, characterized in that indication means such as a display are arranged at a distance from the milking machine, preferably in another building such as the dwelling house, with which it is possible to observe how much milk has been for example, is produced 24 hours. Milking machine according to any one of the preceding claims, characterized in that the milking machine forms part of a running stable for cows, wherein a milking system and a feeding system are designed automatically and are arranged such that the computer controlling the milking system and feeding system depending on the order in which it is registered in the computer, until the milking parlor. 36. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking machine forms part of a walking stable for cows, in which a milking system and a feeding system are automatically designed and arranged such that depending on the order in which it is registered in the computer, the computer admits the milking system and feeding system controlling the cow to the milking parlor. Milking machine according to any one of the preceding claims, characterized in that the milking machine forms part of a cow barn, wherein a milking system and a feeding system are designed automatically and are arranged such that the computer controlling the milking system and feeding system controls the cows at the beginning of a lactation period, have more access to the milking parlor than cows at the end of the lactation period. 38. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking machine is part of a running stable for cows, in which a milking system and a feeding system are automatically fed and arranged such that the computer controlling the milking system and feeding system ensures that the cows that are at the beginning of a lactation period have more access to the milking parlor than cows that are at the end of the lactation period. Milking machine according to any one of the preceding claims, characterized in that a milk hose is connected to a teat cup and to a carrying arm in such a way that the hose does not hinder the movement of the teat cups to a relatively great distance. 40. Milking machine according to any one of the preceding claims, characterized in that a pressing member can be pressed against the rear end of the animal to be milked and the position of the teat cups relative to the teats can be approximately determined by means of a stepping motor cooperating with this pressing member. Milking machine according to any one of the preceding claims, characterized in that the milking cups of the milking machine, as well as a cleaning device, are pivotable about an upwardly directed axis over an angle of more than 90 °. Milking machine according to any one of the preceding claims, characterized in that the machine comprises one or more teat cups, which are individually pneumatically or hydraulically movable upwards relative to their support members, while during milking the pressure on the respective pneumatic or hydraulic cylinders is taken away. Milking machine according to any one of the preceding claims, characterized in that the milking machine is arranged such that a teat cup can be attracted to its carrier by means of two or more pulling members, such as cables. 44. Milking machine according to any one of the preceding claims, characterized in that the milking machine comprises a holder for the four teat cups, and these cups are attached to the holder by means of one or more electromagnets that can be switched on and off, and wherein the electromagnets are individually switchable. Milking machine as claimed in any of the foregoing claims, characterized in that the milking machine forms part of a running stable for cows, wherein a milking system and a feeding system are designed automatically and are arranged such that the computer controlling the milking system and feeding system with serial numbers such as 1, 2, 3, 4, 5, etc., which are allocated to the cows, allow cows in the milking parlor. 6. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking machine forms part of a walking stable for cows, in which a milking system and a feeding system are designed automatically and are designed such that the the milking system and feeding system controlling computer with serial numbers such as 1, 2, 3, 4, 5 etc., which are allocated to the cows, allow cows in the milking parlor. Milking machine according to one of the preceding claims, characterized in that the machine can be operated automatically. Milking machine according to any one of the preceding claims, characterized in that a carrying arm is provided for supporting four teat cups. 49. Milking machine according to any one of the preceding claims, characterized in that the teat cup is fixedly connected to the carrying arm. 50. Milking machine according to any one of the preceding claims, characterized in that the carrying arm is resiliently rotatable about a horizontal axis. 51. Milking machine according to any one of the preceding claims, characterized in that the teat cups are individually movable relative to the end of the carrying arm. Milking machine according to any one of the preceding claims, characterized in that the teat cups are individually displaceable in a horizontal plane. Milking machine according to any one of the preceding claims, characterized in that the teat cups are individually displaceable relative to the end of the carrying arm in a vertical plane. Milking machine according to any one of the preceding claims, characterized in that the teat cups are retracted to the carrying arm during uncoupling by means of pneumatically or hydraulically actuated cylinders. 55. A milking machine according to any one of the preceding claims, characterized in that the milking machine forms part of a cow barn, in which a cow is automatically milkable, all this independent of a possible registration in a system-controlling computer with regard to the time that each cow was milked and independently of a predetermined time elapsed since the cow was last milked. 56. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking machine forms part of a running stable for cows, in which a cow is automatically milkable, all this regardless of any registration in a system-controlling computer of the time each cow was milked and independently of a predetermined time elapsed since the cow was last milked. Milking machine according to any one of the preceding claims, characterized in that the milking parlor is provided with an entrance door for the animal as well as an exit door, which doors are arranged on the side remote from that where the robot is attached to the milking parlor. Milking machine according to any one of the preceding claims, characterized in that a work pit is present next to the milking parlor of the cow. Milking machine according to one of the preceding claims, characterized in that the milking parlor is provided with a feeding installation for the animal to be milked. 60. Milking machine according to any one of the preceding claims, characterized in that the carrier for cow identification means is provided with a computer, in which the data relevant to the milking process can be stored, as well as the data specific to the cow, such as that relating to the position of the teats and the state of health of the cow, which computer can communicate via a transmitting and receiving system with the further relevant parts of the milking machine, in particular with the control cylinders of the milking robot belonging to the milking machine and with the various milking machine associated means of identification. Milking machine according to any one of the preceding claims, characterized in that the computer is activated after the cow identification has taken place. A milking machine according to any one of the preceding claims, characterized in that the milking robot belonging to the milking machine is provided with a transmission and reception system for communication with the computer-linked transmission and reception system on the cow. A milking machine according to any one of the preceding claims, characterized in that the milking robot belonging to the milking machine is provided with a transmitting and receiving system for communication with the transmitting and receiving system coupled to the indication means, such as a display, buzzer or lamp. and / or outside the milking parlor. Milking machine according to one or more of the preceding claims and / or as indicated in the description and / or in the drawings. A milking machine according to any one of the preceding claims, characterized in that the milking machine forms part of a running stable for cows, a cow having a collar on which at least two small computers are arranged, and one of the computers cooperating with a milking system and the other computer interacts with a feeding system. 66. Milking machine with a number of teat cups which can be connected to a number of teats of an animal, characterized in that the milking machine forms part of a walking stable for cows, wherein a cow has a collar on which at least two small computers are arranged , and one of the computers interacts with a milking system and the other computer interacts with a feeding system. 67. A method for automatically milking animals, such as cows, with a milking machine with teat cups, in which four teat cups can be coupled successively to the teats of the animal in a specific order and also separately, but depending on the duration of the milk flow delivered per udder quarter can be disconnected.