RU2282981C2 - Apparatus for measuring diameter of teat - Google Patents

Abstract

FIELD: agricultural engineering, in particular, means for investigating physiological characteristics of animal's udder.

SUBSTANCE: apparatus for measuring teat diameter has mechanism for measuring diameter of teat, and single-chamber teat cup, which is made detachable, transparent and is equipped with graduated scale. Mechanism for measuring diameter of teat is located within casing of teat cup and consists of movement mechanism and measuring part comprising sensor for sensing rotation of levers spring-loaded to teat cup casing. Movement mechanism is made in the form of spring-loaded pressure plates with eyelets for bringing them together. Pressure plates are pivotally secured to measuring part of levers. Teat cup is connected to cover of detachable milk collecting reservoir, which is connected to valve through branch pipe wherein vacuum meter is located. Said valve is connected to vacuum pipeline. Rotation sensor and vacuum meter are connected to registering device for varying vacuum gage pressure value.

EFFECT: increased efficiency and precision in measuring diameter of teat.

4 cl, 2 dwg

Description

The invention relates to agriculture, in particular to means for studying the physiological parameters of the udder.

A device is known for studying the process of removing milk from the udder of animals, containing a special milking cup, a unit for selecting and outputting light and sound information, a granular container, a pulsator, vacuum pipes and a vacuum gauge (RU 2073429 C1, 02.20.1997).

As the closest analogue, a device for measuring the diameter of the nipple was selected, including a mechanism for such a measurement (SU 1033087 A, 08/07/1983).

The disadvantage of these devices is that they do not allow to measure the diameter of the nipple when changing the vacuum pressure in the suction cup of the teat cup.

The technical result achieved by the implementation of this invention is to increase the accuracy of measuring the diameter of the nipple.

The specified technical result is achieved in that the device for measuring the diameter of the nipple, including a mechanism for measuring the diameter of the nipple, according to the invention includes a milking cup made single-chamber, collapsible, transparent, with a graduated scale, in the housing of which is placed a mechanism for measuring the diameter of the nipple, made in the form the movement mechanism and the measuring part, which contains a rotation sensor of levers spring-loaded to the housing of the milking cup, and the movement mechanism is made in the form of spring-loaded pressure plates with eyes for their information and levers pivotally attached to the measuring part, while the milking cup is connected to the lid of a removable milk collecting container, which is connected to a valve connected to a vacuum pipe by means of a nozzle in which the vacuum gauge is located, while the rotation sensor and the vacuum gauge is connected to a recording device for changing the magnitude of the vacuum pressure.

The mechanism for measuring the diameter of the nipple is configured to measure the diameter of the nipple in three planes - at the base, in the middle and at the tip of the nipple.

The valve is made in the form of a rod with a calibrated hole and a housing, and in the latter there is an outlet, a throttling hole and a hole in communication with the atmosphere. The vacuum gauge is made electric.

The invention will be clear from the following description and the attached drawings: figure 1 shows a device for measuring the diameter of the nipple; figure 2 - mechanism for measuring the diameter of the nipple And figure 1.

A device for measuring the diameter of the nipple (figure 1) is made in the form of a special collapsible single-chamber milking cup 1 connected to the lid 2 of a removable tank for collecting milk 3. The latter is connected through the pipe 4 to the outlet 5 of the valve 6. An electric vacuum gauge 7 is made in the pipe 4 connected via wires 8 to a strain gauge 9.

A special collapsible milking cup 1 (Fig. 2) is made single-chamber, in the form of a transparent plastic case 10 and a rubber suction cup 11. On the case 10 of the milking cup 1 there is a scale with divisions 12.

The mechanism for measuring the diameter of the nipple is made of three similar nodes 13. 14 and 15, with the possibility of measuring the diameter of the nipple in three planes (at the base 13, in the middle 14 and at the tip of the nipple 15). Each node is made in the form of a movement mechanism and a measuring part. The latter is made in the form of support wheels 16, 17, 18, 19, 20 and 21, fixed with pins 22 and 23 (Fig. 2 using the example of assembly 14) on brackets 24 and 25 (26 and 27, 28 and 29 of Fig. 1 ) pivoting levers 30 and 31 (32 and 33, 34 and 35) pivotally mounted in the housing 10 of the milking cup 1, and rotation sensors 36 (37, 38). The rotary levers 30 and 31 (32 and 33, 34 and 35) are pivotally connected to the levers 39 and 40 (41 and 42, 43 and 44) and spring-loaded with springs 45 and 46 to the housing 10 of the milking cup 1.

The movement mechanism is made in the form of pressure plates 47 and 48 with eyes 49 and 50, spring-loaded with springs 51 and 52 (53 and 54) to the housing 10 of the milking cup 1 and levers 55, 56 (57, 58, 59, 60). The latter, in turn, are pivotally attached to the protrusions 61 and 62 of the milking cup 1 and to the levers 39, 40 (41, 42, 43, 44) of the measuring part. In addition, the levers 55, 56 (57, 58, 59, 60) are equipped with support rollers 63, 64 (65, 66, 67, 68).

The valve 6 is made in the form of a housing 69 and a stem 70 with a calibrated hole 71. In the body 69 of the valve 6 there is an outlet 5, a throttling hole 72 connected to the vacuum pipe 73, and a hole 74 in communication with the atmosphere.

To output the received information in the device for measuring the force exerted by the nipple when changing its diameter, a recording device 75 is provided (for example, a recorder).

A device for measuring the force exerted by the nipple when changing its diameter, works as follows.

Vacuum pipe 73 (figure 1) is connected to a vacuum source (not shown in the diagram). While the stem 70 of the valve 6 is in the upper position. Atmospheric air through a calibrated hole 74 and then through the outlet 5 and the pipe 4 penetrates into a removable tank for collecting milk 3.

To put on the milking cup 1 on the nipple of the animal 76, the pressure plates 47 and 48 are brought together by inserting the thumb and forefinger in the eyes 49 and 50. The levers 55, 56 (57, 58, 59.60) are rotated relative to the protrusions 61 and 62 of the milking cup 1 and entail levers 39 and 40 (41 and 42, 43 and 44), and therefore the measuring parts of the nodes of the mechanism for measuring diameter. After that, put the milking cup 1 on the nipple of the animal 76 and release the pressure plates 47 and 48. At the same time, they are opened under the action of the springs 51, 52 (53, 54).

Next, lower the stem 70 (Fig. 1) of the valve 6 downward, while the stem 70 closes the hole 74, cutting off the supply of atmospheric air. Vacuum through the vacuum pipe 73 through the throttling hole 72, the hole 71 in the stem 70, the outlet 5, the nozzle 4 enters the removable milk receptacle 3 and then through the cover 2 into the suction cup 77 of the teat cup 1.

The change in the magnitude of the vacuum pressure is measured using an electric vacuum gauge 7 and recorded using a recording device 75.

When changing the magnitude of the vacuum pressure in the suction cup 77 of the milking cup 1, the diameter of the nipple 76 changes. In this case, the rotary levers 30, 31 (32, 33, 34, 35) are rotated relative to the rotation sensors 36 (37, 38) and the signal from the latter by means of wires 78, 79, 80 enters the strain gauge 9 and then to the recording device 75.

Claims (4)

1. A device for measuring the diameter of the nipple, including a mechanism for measuring the diameter of the nipple, characterized in that it includes a milking cup, made single-chamber, collapsible, transparent, with a graduated scale, in the housing of which there is a mechanism for measuring the diameter of the nipple, made in the form of a movement mechanism and the measuring part, which contains a rotation sensor of the levers spring-loaded to the case of the milking cup, and the movement mechanism is made in the form of spring-loaded pressure plates with eyes for their information and the hinge levers fixed to the measuring part, while the milking cup is connected to the lid of a removable milk collecting container, which is connected to a valve connected to a vacuum pipe through a nozzle in which the vacuum gauge is located, while the rotation sensor and the vacuum gauge are connected to a recording device for changing the gauge pressure. 2. The device according to claim 1, characterized in that the mechanism for measuring the diameter of the nipple is configured to measure the diameter of the nipple in three planes - at the base, in the middle and at the tip of the nipple. 3. The device according to claim 1, characterized in that the valve is made in the form of a rod with a calibrated hole and a housing, the latter having an outlet, a throttling hole and a hole in communication with the atmosphere. 4. The device according to claim 1, characterized in that the vacuum gauge is electric.

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