RU2144761C1 - Milking unit - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: milking unit has compression spring, adjusting screw adapted for compressing-straightening of spring for regulating vacuum gage pressure difference. Return valve for maintaining vacuum in cavities under teats at nominal value during compression cycle is formed as spherical device provided with conical depression disposed in the zone of contact between spherical device and channel. Such construction allows physiological features of each animal to be taken into account by creating predetermined adjustable vacuum gage pressure difference in chambers defined between walls and under teats of teat cup. EFFECT: increased efficiency and enhanced reliability in operation. 1 dwg

Description

 The invention relates to the field of machine milking, in particular milking machines.

 Known milking machine, including milking cups with a collector communicated through a milk hose and a variable vacuum pipe with a milking bucket connected to a vacuum source and equipped with a regulator of the latter, made in the form of a valve with a load. Moreover, the vacuum regulator is installed in the dissection of the variable vacuum pipe and has a channel equipped with a check valve connected to the collector and the milking bucket in parallel with the variable vacuum pipe [1].

 However, the known milking machine does not provide the necessary pressure drop in the inter-chamber chambers of the teat cups.

 The objective of the invention is to improve the milking process, taking into account the physiological characteristics of each animal.

 The solution of this problem is carried out due to the fact that in the inter-wall and suction cup chambers of the teatcup a certain adjustable differential pressure is created.

 New in the milking machine is that the regulation of the differential pressure is carried out by compression - straightening the spring with an adjusting screw.

 New in the milking machine is that the non-return valve is made in the form of a ball, and at the point of contact with the channel the latter has a cone.

 The drawing schematically shows a milking machine.

 The milking machine contains milking cups 1, a pulsator 2, a collector 3, a milking bucket 4, a vacuum regulator 5.

 The vacuum regulator 5 has an adjustable valve 6 and a non-return valve 7. An adjustable valve 6 is installed on the channel 8, and the non-return valve 7 is installed on the channel 9. In the vacuum regulator there is a channel 10 in communication with the channel 11, equipped with a valve 12. The adjustable valve 6 is located in the chamber 13, and the check valve 7 in the chamber 14. The adjustable valve 6 contains a spring 15 and an adjusting screw 16. The channel 10 at the point of contact with the check valve 7 is made in the form of a cone.

 The milking machine operates as follows.

 When the milking machine is connected to the vacuum conduit, the vacuum propagates into the chamber of the alternating pressure of the pulsator 2, then it enters the chamber 13 of the adjustable valve 6, through the adjustable valve 6 it enters through the channel 8 into the inter-wall chambers of the milking cups 1. The vacuum in the inter-wall chambers of the milking cups 1 will be lower than the nominal due to the action of the spring 15. Moreover, with the help of the adjusting screw 16, the force of action of the spring 15 on the adjustable valve 6 is changed so that in the channel 8 and in the inter-chamber chambers of the milking cup a vacuum was created in 1, the upper limit of which would be lower than the nominal vacuum by a certain amount, i.e. An adjustable valve 6 works to the suction stroke, creating the necessary decrease in the vacuum value in the inter-wall chambers of the teat cups 1. The vacuum value is selected based on the physiological characteristics of the animal. Under the nipple, a vacuum of a nominal value is constantly formed.

 During the compression stroke, the air from the pulsator 2 enters the adjustable valve 6, under the action of the spring 15, the adjustable valve 6 closes the channel 8. Air flows through the channel 9, through the check valve 7, through the channel 10 into the interwall chambers of the milking cups 1, i.e. during the compression stroke, the non-return valve 7 operates and in the suction cups of the milking cups 1 the nominal vacuum value is maintained, and atmospheric pressure is supplied to the inter-chamber chambers. As a result of switching the pulsator 2, the nipple rubber is flattened by atmospheric pressure.

 The crane 12 serves to periodically open or close the channel 11. When the channel 11 is open, the regulator 5 is turned off and the vacuum value in the inter-chamber chambers of the milking cups 1 fluctuates in the usual way, as in push-pull devices. When closing the channel 11, the controller 5 starts to work.

Sourse of information:
1. Copyright certificate N 760911 class. A 01 J 5/04.

Claims (1)

 A milking unit comprising milking cups with a collector communicated by means of a milk hose and an alternating vacuum pipe to a milking bucket connected to a vacuum source and equipped with a regulator of the latter connected to a collector and a milking bucket parallel to the alternating vacuum pipe, characterized in that the vacuum regulator is equipped with an adjusting screw and a check valve, made in the form of a ball, and at the point of contact with the channel, the latter has a recess in the shape of a cone.