DE1065213B - - Google Patents

Description

Milking machines with so-called two-room milking cups are known, in which the suction and the relief cycle controlled by a piston, diaphragm or electric pulsator.

For the purpose of accelerating the milking process and obtaining the most suitable for the individual cow to be milked Pulse curve is known from piston pulsators with Schleppsclijeber, the control of the time Ratio of the suction cycle to the discharge cycle by replacing the drag valve with one Schiel) he change other dimensions. In contrast, membrane pulsators with control of the Ratio of the suction cycle to the discharge cycle unknown. This is where the invention comes into play obtains a membrane pulsator and distinguishes it from the previously known megnbranch pulsators in that that a control of the suction cycle in relation to the discharge cycle within the same overall cycle takes place, the duration of which can also be changed in time depending on the circumstances.

ICin such a Mcmbranpulsator, which in a known manner one or more control elements and a membrane chamber which is divided into two separate chambers by the membrane, which are optionally placed under vacuum via the control elements and connected to the air at the air can be, is according to the invention especially characterized in that the menibranimer a in particular has a controllable valve for letting in atmospheric air during the suction cycle and thus a change in the time ratio from the suction cycle to the discharge cycle.

In a preferred embodiment according to the invention, the sub-chamber that is on the control members facing away from the membrane, with the valve for admitting additional atmospheric Provide air during the suction cycle. This valve is advantageously designed as a ball valve, the ball of which sits on a leaf spring, one end of which is attached to the inner wall of the chamber is. According to a further feature of the invention is a slide which can be adjusted transversely to the valve bore intended for regulating the valve lift or the supply of atmospheric air.

It is thus also possible with membrane pulsators to change the time ratio from the suction cycle to the discharge cycle.

Compared to the known piston pulsators with control of the time ratio by means of an exchangeable Schleppschicbcrs the membrane pulsator according to the invention has the essential advantage that individual milking can be carried out according to the sensitivity of each animal

Membrane pulsator

Applicant: Miele & Cie., Gütersloh (Westphalia)

can without having to replace parts of the pulsator. The control can now be regulated in a simple manner by means of a valve screw or a valve slide 111.

The invention is shown in an exemplary embodiment in the drawing. It shows

Fig. 1 shows schematically a Membraiipiilsator according to the invention in section during the suction cycle and

2 shows the same pulsator in section during the relief cycle.

The membrane pulsator shown in the example is, apart from the modifications according to the invention to be described in more detail, a basically known type with two control valves, of which only one, namely valve 5, can be seen in the drawing, channel V for connection the vacuum line, the channel M for connecting the milk line and the channel A for the supply of atmospheric air.

This design has been modified in the sense of the invention by the valve 3, 4 and slide 4o so During the suction cycle, in addition to the vacuum, atmospheric air enters the chamber through this valve 2 can flow in.

While so far the membrane 1 is in constant change from when the pulsator is working moved one to the other dead center, so that the relief and the suction stroke each 50% of their total stroke are now in the sense of the invention of the chamber 2 at the moment fresh air or atmospheric Air is supplied via the ball valve 3, 4 when atmospheric air enters the via the valve 5 Milking cup sleeves flows.

In detail, the process is as follows: After that in the chamber 2 according to FIG. 1 via the channel 8 The vacuum generated has reached a certain level, which is determined by the design of the valve 3, 4, atmospheric air flows through this valve into chamber 2.

909 627/38

Claims (5)

correct vacuum level with a time delay and thus the suction cycle is extended. The extent or the size of this delay depends on the design of the valve 3, 4. In any case, a sufficiently large negative pressure, which can be determined over time, is generated in the chamber 2, so that as a result of this negative pressure and the atmospheric air supplied by the pulsator to the chamber 2 a via the channel 9, the membrane 1 is reversed and according to FIG Discharge cycle executes. The atmospheric air in the chamber 2a is sucked out through the bore 6 of the valve 5. Atmospheric air now enters the chamber 2 via the channel 8 which can be regulated by means of the screw 7, so that the diaphragm moves into the position for initiating the suction cycle according to FIG. 1 through a pressure difference generated. By narrowing the cross-section of the bore 4 by means of the slide 4a, any control of the suction cycle for the relief cycle between 50 and 100% can take place. Deviating from this, this control can also take place in other ways, such as, for. B. by changing the closing force of the valve 3, 4 or the valve spring or by a corresponding ratio of the diameter of the valve or the valve bore to the spring pressure. The valve 3, 4 can also be of any other suitable type. The length of the suction cycle can be in any suitable manner within the meaning of the invention, for. B. by screw or slide alloy, can be regulated steplessly or stepwise. So z. B. the FIub of the spring holding the ball 3 can be controlled by means of a screwable stop protruding into the chamber 2. A stepless or step-by-step control results in the great advantage of individual milking. This is because it is now possible to adapt the desired ratio between the suction cycle and the relief cycle to a specific breed of cattle or to the respective cow to be milked. Patent claims: 1. Membrane pulsator with one or more control elements and a membrane chamber that is divided by the membrane into two separate sub-chambers, which over the control members placed under vacuum and connected to the outside air, characterized in that that the diaphragm chamber (2) has a particularly adjustable valve (3, 4, 4a) for admission atmospheric air during the suction cycle and thus a change in the time ratio of the suction cycle to the relief cycle. 2. Membrane pulsator according to claim 1, characterized in that the chamber (2) which is on the side of the membrane (1) facing away from the control valves of the pulsator, a \ ^r entil (3, 4) for supplying outside air in addition to the vacuum during of the suction cycle. 3. Membrane pulsator after. Claim i to 2, characterized by a particular as a screw or Slide control device trained control device for stepless or stepwise Regulation of the air supply via the valve (3, 4). 4. membrane pulsator according to claim 1 to 3, characterized in that the valve lift or the Valve bore cross section of the valve (3, 4) in particular by means of a cross section to the valve bore (4) adjustable slide (4a) is adjustable. 5. membrane pulsator according to claim 1 to 4, characterized in that the valve (3, 4) as Ball valve is formed, in particular with one at one end and one with its other end the inner wall of the chamber (2) attached to the leaf spring seated ball (3). Considered publications:
German patent specification No. 1 008 954. For 1 sheet of drawings © 909 627/38 9.