RU65341U1 - DEVICE FOR DETERMINING THE PERFORMANCE OF A NIPPLE RUBBER - Google Patents

Abstract

The utility model relates to the agricultural field of dairy production, namely to the technique and technology of machine milking, and more particularly, to the design of devices for diagnosing the condition of nipple rubber (teat tubes) of milking machines.

The task to be solved is the creation, in the conditions of a farm, of a simple enough device to determine the integrity and performance of the nipple rubber, which is one of the most important elements of the milking machine. Violation of the integrity and elastic characteristics of the nipple rubber often leads to changes in biologically optimal milking conditions, some types of cow diseases and possible malfunctioning of milking machines due to unacceptable changes in stiffness, elongation or loss of tightness of the nipple rubber material.

This problem is solved by the fact that in the known device for determining the health of the nipple rubber containing a teat cup, the nipple rubber and the nipple simulator located inside, means for supplying compressed air and measuring pressure, according to the utility model, the device comprises a receiver, the input of which is connected through a shut-off valve with an air pump, the first output of the receiver is connected to the first pressure gauge to measure the rate of pressure drop in its volume, the second output of the receiver is connected through the first faucet a clutch with a nozzle of the teatcup, and the third output of the receiver is connected through a second valve — a switch with a nipple simulator cavity and a second manometer for fixing and maintaining a pressure in the indicated cavity equal to the pressure inside the udder during milk allowance, the first and second valves being mechanically connected to stopwatch for their independent start at the moment of connecting the receiver volume with the cavity of the nipple simulator and the teat cup.

Description for 5 l., Fig. for 1 liter

Description

The utility model relates to the agricultural field of dairy production, namely to the technique and technology of machine milking, and more particularly, to the design of devices for diagnosing the condition of nipple rubber (teat tubes) of milking machines.

A device is known for determining the rigidity of teatcups of teatcups containing a teatcup with teatcup forming interstitial and suction cups, an injection device and means for measuring deformation of teatcups (see ed. St. USSR No. 1438666, bull. No. 43, 1988 )

The interstitial chamber of such a device is filled with liquid, the pressure of which compresses the teat tube, closing the contacts of the electric circuit located near the axis of the device. The moment of compression of the nipple tube is fixed by ignition of the light bulb, and the fluid pressure in the interstitial chamber is fixed by the height of the liquid column in communication with it in a vertically located tube.

The disadvantages of the known device are the relatively low accuracy of measuring deformation of the nipple rubber, due to the uncertainty of the location of the closed contacts of the electric circuit relative to the area of its maximum deformation, as well as the complexity of the design associated with the need to use a liquid deformation system of the nipple rubber.

The closest technical solution to the proposed one is a device for determining the health of the nipple rubber containing a teatcup placed inside the nipple rubber and a nipple simulator, means for supplying compressed air and measuring pressure (see ed. St. USSR No. 1412671, bull. No. 28, 1988 - prototype).

A feature of the known device for determining the health of the nipple rubber is the presence of a vacuum source in communication with the suction cup of the teat cup. In this case, the elastic chamber of the artificial nipple is filled with liquid, which, when the walls of the nipple rubber are closed, squeezes the liquid into the measuring chamber equipped with a membrane and a movable indicator of its deflection.

The disadvantages of the known device are the mandatory use of a vacuum system, the relatively low accuracy of the hydromechanical index of deformation of the nipple rubber and the lack of means for synchronously measuring the time of pressure change in the suction cup.

The task to be solved is the creation, in the conditions of a farm, of a simple enough device to determine the integrity and performance of the nipple rubber, which is one of the most important elements of the milking machine. Violation of the integrity and elastic characteristics of the nipple rubber often leads to changes in biologically optimal milking conditions, some types of cow diseases and possible malfunctioning of milking machines due to unacceptable changes in stiffness, elongation or loss of tightness of the nipple rubber material.

This problem is solved by the fact that in the known device for determining the health of the nipple rubber containing a teat cup, the nipple rubber and the nipple simulator located inside, means for supplying compressed air and measuring pressure, according to the utility model, the device comprises a receiver, the input of which is connected through a shut-off valve with an air pump, the first output of the receiver is connected to the first pressure gauge to measure the rate of pressure drop in its volume, the second output of the receiver is connected through the first faucet a clutch with a nozzle of the teatcup, and the third output of the receiver is connected through a second valve — a switch with a nipple simulator cavity and a second manometer for fixing and maintaining a pressure in the indicated cavity equal to the pressure inside the udder during milk allowance, the first and second valves being mechanically connected to stopwatch for their independent start at the moment of connecting the receiver volume with the cavity of the nipple simulator and the teat cup.

This embodiment of the device for diagnosing the condition of the nipple rubber makes it possible, at minimum cost, in conditions of poorly equipped mechanical workshops of farms, to produce a fairly simple and sensitive diagnostic device for the operational verification of the integrity and elastic properties of the nipple rubber of milking machines without using a vacuum system.

Figure 1 presents a block diagram of a device for determining the health of the nipple rubber.

The device contains a milking cup 1, placed inside the nipple rubber 2 and a simulator of the nipple 3. The input of the receiver 4 is connected via a shut-off valve 5 to the air pump 6. Moreover, the first output of the receiver 4 is connected to the first manometer 7 to measure the rate of pressure drop in its volume, the second output of the receiver 4 is connected through the first tap switch 8 to the nozzle 9 of the milking cup 1, and the third output of the receiver 4 is connected through the second tap - switch 10 with the cavity of the nipple simulator 3 and the second pressure gauge 11 for fixing and maintaining pressure cavity equal to the pressure inside the udder with an allowance for milk.

The first and second crane - switches 8, 10 are mechanically connected to the stopwatch 12, 13 for their independent start when the volume of the receiver 4 is connected to the cavity of the milking cup 1 and the simulator of the nipple 3. The crane - switch 10 is connected to the pipe 14 and, through the channel in the flange 15, with a nipple simulator cavity 3 and a manometer 11. Between the walls of the milking cup 1 and the nipple rubber 2 there is an interstitial chamber, indicated by pos. 16, and the suction cup is indicated by pos. 17. The articulation of the elements of the device 1, 2, 3, 15 is sealed due to the elasticity of the nipple rubber 2. As the receiver 4 in the proposed device uses a sealed container up to 1 liter. The air pump 5 for a working pressure of 10-60 kPa can have a manual or electric drive.

A device for determining the integrity and elastic properties of the nipple rubber of the milking machine operates as follows.

According to the proposed utility model, to diagnose the characteristics of the nipple rubber 2, a simpler pneumatic method of loading the nipple rubber 2 and the simulator of the nipple 3 is used by feeding air into the interstitial and nipple chambers 16, 3 using an air pump 6, receiver 4 of the shutoff valve 5 and cranes - switches 8, 10. In this case, the rigidity of the nipple rubber 2, the pressure in the cavity of the simulator of the nipple 3 and the time of pressure changes in the chambers 3, 16 are estimated by the readings of pressure gauges 7, 11 and stopwatch 12, 13. During the test th suction chamber 17 is at atmospheric pressure.

Checking the integrity of the conical, cylindrical and sealing parts of the nipple rubber 2 is as follows. The nipple rubber 2 in the assembly with the milking cup 1 is equipped with a flange 15 with a manometer 11. The pipes 9, 14 are connected using pipelines or hoses to the outputs of the receiver 4 through a tap - switches 8, 10.

When the valves 8, 10 are closed, the pressure in the receiver 4 is brought up to 5 kPa and the shut-off valve 5 is closed. Then, the valve 10 is opened and the stopwatch 13 is simultaneously started to supply compressed air to the cavity of the nipple simulator 3 (pressure in the cavity of the nipple simulator 3 during testing should be equal to a pressure of 5 kPa inside the udder with an allowance for milk). At the first moment, there is a slight decrease in pressure in the receiver 4, due to the filling of the chamber of the nipple simulator 3. If the pressure in the receiver 4 remains unchanged for 1-2 minutes, this indicates not only the integrity of the thin-walled shell of the nipple simulator 3, but also the rigidity of the nipple rubber 2, as well as the absence of leaks through the junction of the nipple rubber 2 with the flange 15.

Then close the tap - switch 10 and bring the pressure in the receiver 4 to 20 kPa, then close the shutoff valve 5 and open the tap - switch 8 with the simultaneous start of the stopwatch 12 to supply compressed air to the cavity 16 of the milking cup 1. At this point, a slight decrease the pressure in the receiver 4, due to the filling of the chamber 16 of the teat cup 1.

If after that for a long time (several minutes) the pressure in the receiver 4 remains unchanged, this indicates the integrity of the main elements of the nipple rubber 2, the absence of microcracks in its thickness and the absence of leaks through the joints of the nipple rubber 2 with the teat cup 1. When violation of the integrity of the nipple rubber 2 according to the recorded readings of the pressure gauge 8 and stopwatch 12, you can build a graph of the pressure drop in the coordinates of time - pressure. The slope and shape of the pressure drop curve in the receiver 4 may indicate the type and magnitude of the corresponding defects in the material of the nipple rubber 2.

The integrity of the nipple rubber 2 is characterized by the constancy of the pressure P _I in the cavity 16 and P _o in the cavity of the simulator of the nipple 3, Determination of these values allows us to make a conclusion about the stiffness of the nipple rubber 2 by calculating its elasticity associated with the pressure difference P _I- P _o = P _ct .

When determining the performance of several teat tubes milking units _simp obtained values P for each of them allows to divide them into four classes in terms of a vacuum clamp in the range P _cm = 6-10 kPa (6-7 psi Group 1, Group 2 7-8 kPa 3 group of 8-9 kPa, 4 group of 9-10 kPa). The use of four nipple tubes inside each group (for example, for 2 groups of 7-8 kPa) determines equal working conditions for four glasses of a particular milking machine, which is a prerequisite for organizing machine milking.

Violation of the integrity and elastic characteristics of the nipple rubber often leads to changes in biologically optimal milking conditions, some types of cow diseases and possible malfunctioning of milking machines due to unacceptable changes in stiffness, elongation or loss of tightness of the nipple rubber material.

For this reason, the integrity of the milking machine's nipple rubber and its elastic properties are important diagnosed parameters for mechanics and machine milking operators. Even minor violations of the elastic properties of the nipple rubber can disrupt the operation of milking machines. The proposed implementation of the device allows, in conditions of poorly equipped mechanical workshops of farms, to manufacture this device and use it to test the health of the nipple rubber of the milking machine.

Claims (1)

A device for determining the health of the nipple rubber containing a teatcup placed inside the nipple rubber and a nipple simulator, means for supplying compressed air and measuring pressure, characterized in that the device comprises a receiver, the input of which is connected through a shut-off valve to the air pump, the first output of the receiver is connected with the first pressure gauge to measure the rate of pressure drop in its volume, the second output of the receiver is connected through the first crane switch to the nozzle of the milking cup, and the third you the receiver’s stroke is connected through a second faucet switch with a nipple simulator cavity and a second pressure gauge to fix and maintain a pressure in the indicated cavity equal to the pressure inside the udder during milk allowance, the first and second faucet switches being mechanically connected to the stopwatch to start them independently at the moment of connection receiver volume with a nipple simulator cavity and a teatcup.