CS268493B1 - Pneumatic membrane pulsator - Google Patents

Abstract

The solution is pneumatic membrane puleátor, especially suitable for milking equipment. The essence of the solution lies in a special arrangement of Individuals pulsator chambers and in their mutual connected and closed or opened through the valve. Valve Is controlled by a working diaphragm, modified between the vacuum chamber and the driver chamber which is interconnected by the chamber alternating pressure across the channel with Needle,

Description

The invention relates to a pneumatic membrane pulsator, in particular for milking machines equipped with a vacuum source.

One of the important elements of milking equipment is the pulsator, which determines and influences the action of the teat cups. dairy milk. Due to the fact that incorrect operation of the pulsator can have an adverse effect on the health of the mammary gland and milk yield, considerable demands are placed on the pulsator. This is mainly in terms of the regularity of the pulse frequency, the pulsation ratio between the suction and compression clock and the characteristics of the pulsator, which determines the transition between suction and compression. Various designs of pulsators are known by the axis, depending on the source of control we distinguish pneumatic or electromagnetic pulsators.

Pneumatic pulsators are mainly designed as slide, piston or diaphragm. For slide pulsators The internal control system, which ensures the change of pressure conditions in the partition wall, is filled with liquid or gas. Although these pulsators show good parameters, they have not expanded significantly. The main disadvantages are the considerable complexity, the demands on production accuracy and the high acquisition and operating costs. In addition, these pulsators cannot be serviced and adjusted during operation; this must be provided by a specialized service center. Piston pulsators also have similar disadvantages, especially in terms of production accuracy and cost. Because the achieved technical parameters of these pulsators do not offset the emerging disadvantages, their significant use did not occur. Of the pneumatic pulsators, membrane pulsators are most often used mainly for their simplicity and low acquisition and operating costs. Various embodiments of these pulsators are known from the axis, in which the change of pressure ratios is ensured by adjusting the skin by means of a flexible membrane. The main disadvantages of the known embodiments are the low stability of the required parameters, in particular the characteristics and the frequency of the pulses, which requires frequent adjustments during operation, which also results in a lower performance of the milking equipment.

The object of the invention is to provide such a pneumatic membrane pulsator which largely eliminates the above-mentioned drawbacks and ensures sufficient operational reliability and function of the pulsator.

The essence of the invention lies in the fact that a working diaphragm with a connected valve is inserted between the constant vacuum chamber and the control chamber, on the head of which a first seat and a second seat are arranged in the alternating pressure chamber. By means of which the alternating pressure chamber is separated either from the fixed floor chamber or from the atmospheric pressure chamber, a channel with a regulating needle is provided in the valve, connecting the alternating pressure chamber with the control chamber.

The solution according to the invention takes advantage of the existing advantages of pneumatic membrane pulsators. By its arrangement of individual chambers and their interconnection or closing, it enables the achievement and observance of the necessary parameters, especially the stability of the pulse frequency and the characteristics of the pulsator. The design allows to achieve optimal dimensions, weight and easy adjustment of the pulsator with sufficient tightness of the valve seats.

In the attached drawing, an example of a pneumatic diaphragm of a new pulsator is shown in cross section.

CS 268 493 81

The pneumatic diaphragm pulsator is provided with a body 1 in which a constant vacuum chamber 2, an inlet nozzle 3 and an outlet nozzle 23 are provided. with an atmospheric pressure chamber 8 provided with a filter 9. The chamber body 4 and the filter 9 are secured against the body 1 by a nut 10. The valve 11 is connected to the working diaphragm 12 by a tube 14 with washers 13. On the valve head 15 towards the permanent floor chamber 2 a first seat 16 and towards the atmospheric pressure chamber 8 a second seat 17. A channel 18 with a control needle 19 is formed in the valve 11, by which the alternating pressure chamber 7 is connected to a control chamber 20 arranged between the working diaphragm 12 and The cap 21 is connected by a cap nut 22 to a body 1, the outlet nozzle 23 of which is connected to an alternating pressure chamber 7.

The pneumatic diaphragm pulsator is connected by its inlet nozzle 3 to the floor (not shown) of the pump floor and the outlet nozzle 23 to the partition wall of the milking machine. Atmospheric pressure and vacuum act alternately on the teat cup placed on the teat of the cow. The pulsator according to the invention ensures the alternation of the compression phase and the suction phase both in terms of the number of pulses and the pulse ratio and the transition characteristic as follows: In the position shown in the accompanying drawing 6 is connected to the atmospheric pressure chamber 8. Therefore, in the alternating pressure chamber 7 and in the outlet nozzle 23 there is an atmosphere, preferably purified through a filter 9 and subsequently also in the partition wall, whereby the compression phase takes place. At the same time, however, the atmosphere from the alternating pressure chamber 7 penetrates through the channel 18 into the control chamber 20. Atmospheric pressure acts on the working diaphragm 12 and pressure 7 and connects it to the constant vacuum chamber 2. The action of the vacuum cancels the atmospheric pressure in the alternating pressure chamber 7 and the outlet nozzle 23, whereby the suction phase takes place. Gradually, the atmospheric pressure in the control chamber 20 is canceled and the resulting negative pressure acting on the working diaphragm 12 causes the valve 11 to be reset to the initial state, when the first seat 16 of the head 15 closes the constant vacuum chamber 2 and the atmosphere from the atmospheric pressure chamber 7 enters the atmospheric pressure chamber. The frequency of adjustment of the valve 11 is determined by the control needle 19 in the channel 18, and after loosening the cap nut 22 and removing the cap 21, the control needle 19 can be adjusted and thus the pulse frequency can be influenced. The correct function of the pulsator, especially in terms of its characteristics and pressure conditions, is affected by the flush mounting of the valve 11 in the body 1, which alternately seals either the constant vacuum chamber 2 or the atmospheric pressure chamber 8 with its first seat 16 or second seat 17.

Claims (1)

Pneumatic diaphragm pulsator provided with a fixed floor chamber, an alternating pressure chamber and a valve, characterized in that a working diaphragm (12) and an attached valve (11) are mounted between the constant vacuum chamber (2) and the control chamber (20), on the head (11) 15) a first seat (16) and a second seat (17) are provided in the alternating pressure chamber (7), by means of which the alternating pressure chamber (7) is separated either from the constant vacuum chamber (2) or from the atmospheric pressure chamber (8), a channel (18) with a control needle (19) is provided in the valve (11), connecting the AC pressure chamber (7) with the control chamber (20).