RU2688369C1 - Two-chamber teatcup - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to machine milking, namely to teat cups. Device includes a body, a constant and alternating vacuum branch pipe, a teat tube with a sucker, an interstice and under-nipple chamber. In the lower part of the under-nipple chamber in its centreline plane there is a plate with flat parallel side surfaces extending the teat tube on each side, changing the volume of the interstice and under-nipple chambers and sealing the latter in a compression stroke.

EFFECT: higher quality of milking and reduced destructive effect of energy of vacuum medium on nipple and mammary gland.

1 cl, 2 dwg

Description

The invention relates to machine milking, in particular, to teat cups.

During the operation of serial factory suction two-stroke apparatus, for example, DA-2m, Maiga, ADU-1 and others with two-chamber cups, a constant vacuum is supplied under the nipple, for example, within 0.49-0.54 kgf / cm ² , and in the inter-wall chambers glasses this vacuum is formed in time to suck, or atmospheric pressure to the step of compression. The optimum frequency of pressure pulsation i.e. changes in the atmospheric interwall wall chamber to a vacuum gauge, which is provided by the pulsator, within 60 ± 1 pulses per minute, with an optimal ratio of sucking strokes of 60% and compression of 40% over time. The duration of the process of expiration or filling the air between the walls of the teat cups affects the performance of the nipple rubber, determines the flow of milk into the spraying chamber while sucking and stopping it while compressing rubber, while simultaneously protecting the nipple from the impact of the working vacuum, exceeding the physiological harmlessness standard .

Therefore, the effective role of protecting the nipple and the breast in general during milking depends on the processes in the compression stroke, which lasts only in the operating mode for up to 0.4 seconds.

A two-chamber milking cup is known, consisting of a housing with interchangeable upper and lower heads, a nipple rubber with a mounting ring, constant and variable vacuum branch pipes, and a viewing cone. (АС USSR №178230, A01J 5/08, 1963).

The disadvantages of this glass are: the complexity of the design, its instability due to the movement of the mounting ring through the nipple tube, the weakness of the nozzle of alternating vacuum on the lower head, the complexity of the assembly, the lack of tightness at the point of contact between the suction cup of the nipple tube and the upper head, which destabilizes the milking process.

An analogue may be a teat cup consisting of a body with an alternating vacuum pipe, a nipple tube with a suction cup in the shape of a truncated cone, containing a milk pipe for supplying a constant vacuum. The USSR AS 1797737, A01J 5/08, 1990).

The disadvantage of this glass is the lack of visual control of the milking process, which involves the use of automatic milking machines, special details from collectors, to control the milk yield and instability of the tension of the nipple tube, which varies during operation, which requires recording its duration.

The closest in technical essence and the achieved result is a teat cup, including a body with an annular seal in the upper part and a depression in the form of a truncated cone in the lower part, a constant and variable vacuum pipe, a cylindrical nipple tube with a suction cup, a viewing cone (RF Patent No. 2258356, A01J 5/08, 2002)

The disadvantages of this glass are not complete closure of the walls of the nipple tube and sealing the nipple to the compression stroke, an increased vacuum mode in the podskoskovoy chamber, which violates the safety and protection of the nipple during milking and causes an increased percentage of animals with udder irritation and mastitis.

The disadvantage of the above designs of glasses is the lack of control over the form and modes of operation of their chambers: podoskovoy and interwall.

The objective of the invention is to obtain the specified technical result, which consists in performing increased vacuum sealing during the nipple compression stroke of the animal in contact with the teat cup of the teat cup, by pressing the nipple rubber to the additional part in the form of a plate, increasing the speed, area and completeness of rubber closure on plate and after it in the underflow area, improving the quality of milking as a result of reducing the destructive effect of the energy of the vacuum medium on the nipple and the mammary gland, and Enable their destruction, increase the milk production and milk quality.

The specified technical result is achieved by the fact that in a two-chamber teat cup including a body, a constant and variable vacuum tube, a nipple tube with a suction cup, and an interwall wall and a power tube, according to the invention, there is a plate in the lower part of the flow chamber, which has flat parallel side surfaces that seals it tact of compression and expanding the nipple tube on each side and changing the volume of podoskova and interwall walls. The technical result is also achieved by the fact that the plate is made of a material that does not interact with the ingredients of milk, a rectangular shape with all the cone-shaped edges and rough side, 30 ± 2 mm long, 18 ± 2 mm wide, 4 ± 1 mm thick. The given plate size parameters may vary according to the shape of the nipple rubber and glass.

A comparative analysis of the proposed solution with known teat cups allows us to conclude that it meets the criterion of "NOVELTY", since the proposed patent information search did not reveal the proposed set of essential features of the invention.

Comparison of the claimed technical solution with the known ones made it possible to reveal features that are not obvious to a specialist of average qualification due to the technical result achieved by the entire set of essential features. This allows to make a conclusion about the compliance of the proposed technical solution to the criterion of "INVENTIVE LEVEL".

The claimed technical solution meets the criterion of "INDUSTRIAL APPLICABILITY", as it can be used for milking cows in the conditions of existing enterprises for the production of milk.

The invention is illustrated by a specific example and illustrated graphic materials, where in FIG. 1 shows the proposed dual chamber teat cup, FIG. 2 shows in three projections the proposed sealing plate.

A two-chamber teat cup includes a cylindrical body 1, which has an annular thickening 2 in the upper part of the body, an alternating vacuum nozzle 4, and a truncated cone 3 in the lower part, which includes the teat tube 5 with a suction cup 6 and the constant vacuum nozzle 8 with an observation a cone 7 and a circular protrusion 11 for sealing the interstitial chamber 10. In the glass, a spraying chamber 9 is formed when placed in the nipple 5 of the animal's nipple 14. The nipple tube 5 is fixed at the outlet outside the cylindrical body 1. С Oskonnaya tube 5 tightly covers the circular protrusion 11 of the viewing cone 7 and is hermetically crimped by the wall of the recess in the shape of a truncated cone - 3 and the upper part of the viewing cone 7, sealing the spraying chamber - 9. The suction cup 6 and the annular thickening 2, the recess in the shape of a truncated cone 3 together with annular protrusion 11 seals the interstitial chamber 10.

The teat cup is assembled and disassembled using a device for assembling and disassembling a two-chamber teat cup (RF Patent No. 2238641, A01J 7/00 dated 12.08.2002) A rectangular or trapezoidal plate 12 with flat parallel faces is placed in the center plane of the lower part of the podskoskogo chamber - 9 teat cup. side surfaces of neutral material (Plexiglas, plastics, titanium, stainless steel, etc.) with a height of 15-20 mm, thickness up to 5 mm with all tapered edges and rough side surfaces with grooves - 13, expanded roaming nipple tube 2-4 mm on each side (Fig. 2).

The plate can be inserted into the lower part of the glass and removed: with tweezers, forceps (clamp) or a special device.

Two-chamber teat Cup works as follows. Under the influence of a constant vacuum supplied through the nozzle 8 in the tact of sucking the milking machine milk is released from the nipple of the animal. Then, through the pipe 4 from the pulsator (not shown), an air pressure impulse is received, which, due to the pressure difference inside and outside the nipple tube 5, pinches it below the nipple of the animal, thereby isolating the nipple 14 from the traumatic effect of the vacuum. The plate 12 at the same time serves as an internal stiffener of the tube 5, forms its compression plane and at the same time eliminates the gaps near the bending lines of the inner walls of the tube 5 due to plastic deformation of the rubber wall of the nipple tube 5 around the ends of the plate 12. The surface of the tube 5 fits tightly against the plate 12 which overlaps due to its thickness of the slit arising in the tube 5 during compression without a plate 12. At the same time the plate 12 is held in a predetermined position due to friction forces between its rough ends and the inner wall oh nipple tube 5. This is facilitated by the grooves - 13. As a result, a more complete isolation of the animal's nipple from the vacuum in the rest tact is achieved, which allows to improve the physical condition of the animal and improve the quality and productivity of its milking.

In this way, the specified technical result is achieved: increased sealing from vacuum in time to the compression of the nipple of the animal in contact with the teat chamber of the teat cup.

The cyclogram of the operation of two-stroke apparatus to the beat of compression of the nipple rubber includes the steps: filling the interstitial chamber of the apparatus with air, changing the pressure from atmospheric to vacuum, and these cycles are repeated.

The time t _{1 is} allocated from the beginning of the filling of the interstitial chamber with air to the closing of the nipple rubber walls under the nipple; t ₂ - time spent nipple rubber in a compressed state and the protection of the nipple and its sphincter from vacuum. This includes part of the time t ₃ with the outflow of air with a decrease in pressure in the interstitial chamber before stretching the nipple rubber, the duration of which increases, then the volume of the interstitial chamber t ₃ increases and continues after the stretching of the rubber until a full vacuum in the interwall is reached.

In three-stroke milking machines (for example, of the type "Volga"), the same two successive tacts occur at the same frequency: the sucking tact and the compression tact. Moreover, only part of the compression stroke is complemented by the process of reducing the vacuum level under the nipple due to the work of the collector. Therefore, the same basic processes of the action of the nipple rubber 68 B-1 occur here, as in the 2-stroke, but in a somewhat soft form. Therefore, everything said above about the nipple rubber has the same place with 3-stroke devices when applying the plate offered by us.

The time t ₁ and t ₃ depends on the hardness of the nipple rubber.

In our proposed device, the presence of a plate in a podskoskovo chamber allows:

1. Reduce the role of the hard rubber factor, reduce the time t _{1 to} accelerate and ensure the full compression of the nipple rubber at the beginning of the compression stroke, because its path of movement decreases by the plate thickness, from the rubber to the plate - the path is shorter, since the rubber is already in a semi-compressed state , an effort has already been made to stretch it on the sides of the plate.

2. Increases the completeness of compression of rubber due to the introduction of the side surfaces of the plate into its body and due to its smooth side surfaces, to which the rubber is pressed, more tightly sealing the spraying chamber to the compression stroke compared to the prototype.

3. The fullness of compression of the nipple rubber is increased at a distance from the plate to the cow's nipple due to a change in its shape and physical pressure as it stretches.

4. The time t _{3 is} increased due to the increased voltage during lateral stretching of the rubber by the plate and an increase in the volume of the interwall of the teat cup.

5. Increases t ₂ , - the residence time of the nipple rubber in the compressed state to the compression stroke and the protection of the nipple and udder from the vacuum environment (by reducing the time t ₁ to compressing the nipple rubber and increasing the part t ₃ , before straightening the nipple rubber and increasing the time of occurrence full vacuum in the grinding chamber, as a result of increasing its volume.

Thus, in the working compression stroke, time t ₂ increases, and with it the fullness and duration of the time to protect the nipple from vacuum.

It is known that air consists of a mixture of gases. Under normal pressure (1011325 Pa) and a temperature of 0 ° C, its density is increased and stable, the number of molecules in m ^{3 of} air is also (Avogadro's number). It is calculated: the molar mass of air according to the Mendeleev-Klaiperon law, the air density at different vacuum levels and temperatures (for example, 0 ° C) according to the Boyle-Mariotte law, the kinetic energy of the random motion of the air molecule, taking into account the universal Boltzmann gas constant. The kinetic energy of air molecules in 1 m ^{3 of the} medium is increased and stable (at normal pressure and at an ambient temperature of 0 ° C). When machine milking, for example, at 48 kPa - it decreases accordingly. The difference of these values is the vacuum energy (Hb) during machine milking. The power of the milking machine (W) can be expressed as the quotient from the division of vacuum energy by the exposure time (t). The operation of the milking machine (A) is equal to the product of power (W) by the time of operation (t).

It is known that the normal pressure of gases is established in the internal organs of a cow. Vacuum environment with low internal energy is a physical force, attracting tissue (udder) that prevents blood circulation, seeking to fill the lack of internal energy due to the energy of gases, evaporation of liquids contained in milk and breast tissue. This process leads to the destruction of the inner lining of the breast. Therefore, the less time the contact of the breast tissue in the teat cup with the evacuated air medium, the better for the health of the animal. In particular, this is achieved with a longer rest period (t ₂ ) and full germization of the spouting chamber to the compression stroke and decrease in the sucking tact time. This is achieved by operating the (two-stroke) milking machine with the plate we offer in a glass compared to the prototype and its analogues. The plate reduces the volume of the pre-sweep chamber by approximately 4.5 ± 0.5 cm. Accordingly, it increases the volume of the interwall wall of the teat cup.

The experiment showed that the penetration of the energy of the vacuum medium into the spouting chamber when using the plate is significantly reduced. This has a positive effect on the state of the tissues of the nipple, its sphincter and mammary gland, which are much less injured by the high vacuum compared to the glass of the analog and the prototype.

In the compression cycle, t ₁ decreases in time by the amount of the increase in the compression cycle time. However, the main thing here is as a compression stroke. There is a reliable tightness from the vacuum of the spraying chamber and the nipple protection during this cycle, during which blood leaves the nipple tissues in a compression stroke, ensuring normal metabolism in them.

The plate does not interfere with the flow and suction of milk in time to suck.

When preparing for milking, the udder is washed by the operator, wiped with simultaneous irritation of the nerve endings - as a result, the lactation reflex occurs, the hormone oxytocin is injected into the blood from the pituitary gland, the myoepithelial cells of the alveoli are compressed and milk is released from them into the ducts and further into the nursing chamber; glands.

When using a plate, an animal cannot but feel a decrease in the traumatic painful effect of a vacuum on the nipple (which causes stress syndrome), and reacts by reducing the release of the hormone adrenaline into the blood, inhibiting the action of the hormone oxytocin, which causes compression of the alveoli and the elimination of milk from them. As a result, the strength of the milk-giving reflex and the speed of milking are increased, the condition of the nipple and mammary gland is improved, the milking time is reduced, the milk production of the animal and the fat content of milk are increased.

The proposed design of the teat cup has significant advantages: in the visualization of the milking process and is applicable in the automation of milking in the milking parlors of modern milking machines.

Separate distinctive elements of the proposed milking cup in the form of a plate are applicable to other structures of the teat cup and nipple rubber, for example, type YES. 00.041A with a slight size correction and preservation of a positive effect on the management of the shape and function of the sub-wall and inter-wall chambers to improve the results of milking.

Claims (2)

1. A two-chamber teat cup including a body, a constant and variable vacuum tube, a nipple tube with a suction cup, an interwall and a drip chamber, characterized in that a plate with flat parallel lateral surfaces extending the nipple is located in the lower part of the grease tube. tube on each side, which changes the volume of the interwall and inflow chambers and seals the last one to the compression stroke. 2. Two-chamber milking cup according to claim 1, characterized in that the plate is made of a material that does not interact with the ingredients of milk, rectangular or trapezoidal shape with all the conical edges and rough side surfaces 30 ± 2 mm long, 18 ± 2 mm wide , 4 ± 1 mm thick.

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