GB2099677A - Milking device - Google Patents

Abstract

A milker has a lower base 3 with a concave wall to and a lower exit 29 under vacuum that can be closed by a float 13 with valve 39 until the milk level pivots and/or raises the float to open the exit. An enclosure body 5 is fitted on the base and includes a main vacuum inlet 41 and a milk inlet nipples 25 positioned and angled to direct a substantial portion of milk inflow downwardly below the upper surface of the float. An enclosure cap 7 is releasably fitted on the top of the enclosure body and mounts an air valve, pulsation nipples and a further vacuum inlet. A central stem 17 from the bottom extends up through a central passageway in the float and also through the cap to afford a fulcrum or support for an arm 50 that pivots or slides to close the main vacuum inlet 41 when the air valve is opened. The float can pivot and rise to a limited extent when milking or when the milker is inverted for washing. With the assembled milker, there is no milk backflow and the float acts as a baffle for milk inflow. <IMAGE>

Description

SPECIFICATION Milking device This invention relates to a milker and more particularly to a milker that can be used instead of the milker or receptacle 17 in the system described in U.S. Patent No. 3,726,253. The same pulsator, teat cups, their connections and vacuum lines can be used and connected to the milker described herein. However, the receptacle float, its mounting and the relative location of the various nipples in the present invention are structured to improve the flow of milk during operation and to promote a more thorough washing as well as complete drainage. Also, the valving in the present receptacle represents an improved arrangement.

This invention finds particuiar application in the dual vacuum system disclosed in U.S. Nos.

3,373,720 and 3,406,663 as well as the system of 3,479,008.

According to the invention, there is provided a milker comprising a walled chamber with a lower milk exit and upper entry nipples adapted to be connected to teat cups and communicate milk into said chamber, said exit being connectable to a vacuum milk line and having a valved seat adjacent the bottom of said chamber, said chamber having a vacuum inlet that maintains an operating vacuum therein, a float valve on said seat and said valve being pivoted to the milker to rise and expose the exit responsive to the level of milk in said chamber, said nipples extending upwardly from leads into the chamber side wall adjacent the float and positioned to direct at least a substantial portion of the milk inflow downwardly to below the upper surface of the float, whereby said float can rise unimpeded during the inflow of milk.

Embodiments of the invention will now be described, by way of example only, with reference to the accompanying diagrammatic drawings, in which: Figure 1 is a side elevation of the milker; Figure 2 is a front elevation of the milker; Figure 3 is a section along the lines 3-3 of Figure 2; Figure 4 is a sectional plan view of the milker cap along the lines 4-4 in Figure 3 with parts removed for clarity; Figure 5 is a sectional plan view of the milker chamber along the lines 5-5 in Figure 3; Figure 6 is a section of the inverted milker in elevation corresponding to Figure 3 with the float pivoted and air valve open; Figure 7 is a side elevation sectional view of the milker cap:: Figure 8 is a top plan view of the milker; Figure 9 is an elevation of the milker chamber in section showing the position of milk inlet nipples; Figure 10 is a bottom plan view of the cap; Figure 11 is a section similar to that of Figure 3 but with a modified air valve and cap; Figure 1 2 is a side elevation sectional view of the modified air cap; and Figure 13 is a bottom plan view of the modified air cap.

In Figures 1-3, the milker 1 includes a lower base 3 which is preferably metal, such as stainless steel, and an upper enclosure body 5 which is preferably clear plastic. The enclosure body 5 is readily separable from the base 3 and an air divider cap 7 is releasably fitted on the enclosure 5. A milk exit 29 in the bottom of the base 3 ends in conduit 11 that is attachable to a vacuum hose for conducting milk to a bulk milk tank or other collector (not shown).

In Figure 3, a chamber 8 is formed by the walls of the enclosure 5, the concave bottom wall 10 of base 3 and the cap 7. A hollow float 13 having a slot-shaped passageway 1 5 is loosely fitted on a stem 1 7 that projects upwardly from the bottom wall 10 through the cap 7 to a threaded end that receives a retaining nut 18. A yoke or handle 21 can be secured to the stem 1 7 below nut 1 8 as illustrated in Figure 8. A strip-shaped guide 20 is slidably mounted on stem 1 7 with an elongated limb 22 that normally extends up into passageway 1 5.

Nipples 25 are connectable to hoses that lead from the teat cups (not shown) into the side walls of the enclosure 5 near the lower edge thereof and it can be seen from Figure 9, that the inflow of milk through nipples 25 is mainly directed towards or below the sides of float 13, at an angle to the concave bottom 10. The more or faster the milk entry through nipples 25, the higher the float 13 raises until its upper limit is reached as seen.in Figure 6 where the float contacts the reduced side portion of enclosure 5. Thus, milk flow tends to raise the float 13 rather than depress it during milking and float 13 also functions as a baffle for the inflowing milk. Therefore, chamber 8 can be of relatively small capacity, i.e. one quart or less, yet still not flood in use even with the fastest and highest producing cows (80 Ib or more).

The float 13 is substantially circular when viewed in plan in Figure 5 but decidedly oval when seen from aside in Figure 9. The exit 29 and its seat 31 in bottom 10 are about one-half inch in diameter or equivalent which is adequate under normal milk line vacuum.

Float 1 3 has a side tab 33 which is notched open to receive a guide pin 35 mounted on base 3 so that the float can pivot up and down and ride up the pin 35 as well when milk inflow is substantial and when the milker 1 is inverted for washing and/or draining as seen in Figure 6. As stated above, the upper portion of enclosure 5 is "necked down" to restrain or limit the pivoting of the float. The inner side wall of enclosure 5 also has a slotted boss 37 that receives pin 35 and aligns the enclosure 5 with respect to base 3 when assembled. At the lower side of float 1 3, a projecting valve 39 is positioned adjacent tab 33 to close seat 31, as best seen in Figure 3, when milk has been drained from the milker 1 preserving the vacuum in exit 29.

The inverted washing position corresponds to Figure 2 in my Patent No. 3,726,253 and preferably the line connections are the same as in a dual vacuum system. Thus, conduit 11 in the instant drawings would be connected to high vacuum line 28 in '253, vacuum inlet 41 in enclosure 5 would be connected to a lower vacuum via line 25 in '253 and further or upper inlet 43 which is a pulsation line inlet in air divider cap 7, also would be connected to the lower vacuum via line 23 of '253. Nipples 45 are connected to the teat cups through lines that correspond to 19 in '253 and nipples 25 herein can be attached to the milk lines 1 5 of '253 from the same teat cups.

It can be seen from Figure 8 that the pulsator nipples 45 in cap 7 are offset with respect to nipples 25 in enclosure 5 so that when the pulsation and milk lines from the teat cups are being connected to the animal, there is a minimum of interference and "side push" is eliminated. Also, the ends of nipples 25 are rounded so that the corresponding hoses shut when the teat cups are being put on the animal.

Cap 7 interfits with the remainder of enclosure 5 so that inlets 43 and 41 are in alignment with one another as well as conduit 11 when seen in plan.

The interfitting edges of cap 7, enclosure 5 and base 3 have gaskets or 0 rings to seal when the milker 1 is assembled.

As best seen in Figures 3 and 6-8, the center of cap 7 has an interior stud 47 that has a central hole 71 through which stem 17 passes. The yoke 21 includes a holed flat plate and the threaded end of step 1 7 extends through the plate of yoke 21 to receive retaining nut 1 8. The stud 47 is circular and has a reduced section 44 that is releasably fitted in the slot 49 of a rockable arm 50. One end of arm 50 has a hole that loosely receives an upper recessed projection 54 of a disc-like valve 51 that seats on the inlet side of duct 55 leading from the mail vacuum inlet 41 to chamber 8. The opposite end of arm 50 has a key hole 70 to loosely receive a recessed projection 56 of the end of air inlet valve 57. An indent 67 in the cap 7 is positioned to receive pin 65 of enclosure 67 for cap alignment when milker is assembled.

Valve 57 normally rests on the top of cap 7 and closes air aperture 59 in the cap 7 when duct 55 is open (Figure 3) and admits ambient air through slots 61 of valve 57 when valve 51 is pivoted to shut duct 55 (Figures 6 and 7). Thus, when the teat cups are to be removed from an animal, the vacuum in chamber 8 is broken by lifting valve 57 exposing slots 61 which admit ambient air through aperture 59. At the same time, arm 50 is rocked about reduced section 44 of stud 47 and valve 51 is pivoted and seated on conduit 55 preserving the vacuum in inlet 41 and attached vacuum iine. The pulsation line fitted to inlet 43 partially shuts or can be shut as described in connection with Figure 9 in Patent No. 3,726,253 when the milker is washed. Arm 50 can be removed from stud 47 by turning the arm 900 until the enlarged portion of hole 71 aligns with the enlarged side of the end of stud 47.

When milker 1 is inverted for washing and/or draining the float 13 3 lodges against the walls of the enclosure 5 as seen in Figure 6 and limb 22 of sliding guide 20 prevents the float from closing and stopping circulating of wash water so that return to seated position (Figure 3) is ensured after the milker is returned to upright position. Aperture 59 is lowermost when the milker is inverted so that complete drainage takes place through aperture 59 and thus, valve 57 is self-cleaning.

The above described milker is compact and will fit under lowered uddered cows and also reach the wider udders with less leakage. The nipples 25 enter the lower portion of the milker but externally extend up far enough to prevent milk back-up into the vacuum lines attached to inlets 41 and 43.

In Figures 11-13, a side mounted air valve 1 57 is shown in air cap 107 with the advantage that milk can be cleared from the unit following each milking. Similar parts to those in Figures 11-13 bear the same numbers as in Figures 1-10. instead of a pivotable arm, the valve 157 is attached to a slide element 101 which opens or closes duct 1 55 in Figures 11 and 12 respectively.

Elbow duct 1 55 is positioned closer to stem 1 7 than in the above described duct 55 but otherwise is the same. As seen in Figure 13, slide 101 has a large oval-shaped opening 103 that receives recessed portion 44 of stud 47 and is slidably supported on the latter. When pulled outwardly as shown in Figure 12, the valve slots 61 admit ambient air and opening 103 is moved on stud 47 from duct 1 55 so that slide 101 covers and closes the latter.

An extension 105 extends down from slide 101, adjacent connector 109, into passageway 1 5 of float 13 and affords an additional guide for the float when the latter is displaced from seat 31.

When the unit is inverted to drain, the valve still functions as a lower drain.

While the various features of the above invention that have been described, and that are illustrated in the drawings will be set forth in the following claims as inventive features, it is to be noted that the invention is not necessarily limited to these features and that it encompasses all of the features that have been described both individually and in various combinations.

Claims (14)

1. A milker comprising a walled chamber with a lower milk exit and upper entry nipples adapted to be connected to teat cups and communicate milk into said chamber, said exit being connectable to a vacuum milk line and having a valved seat adjacent the bottom of said chamber, said chamber having a vacuum inlet that maintains an operating vacuum therein, a float valve on said seat and said valve being pivoted to the milker to rise and expose the exit responsive to the level of milk in said chamber, said nipples extending upwardly from leads into the chamber side wall adjacent the float and positioned to direct at least a substantial portion of the milk inflow downwardly to below the upper surface of the float, whereby said float can rise unimpeded during the inflow of milk.

2. A milker as claimed in claim 1, wherein the bottom wall of the chamber is concave and a stem projects upwardly from said bottom wall near the center thereof, said float having a through passageway that loosely receives said stem, said seat being located off-center in said bottom and said float mounting a valve member that normally cooperates with said seat to close same until said float rises responsive to the milk level in said chamber.

3. A milker as claimed in claim 2, wherein the passageway of said float is slot-shaped and a notched tab extends from one side of the float, a guide pin on said bottom wall adjacent said seat being fitted in the notch of said tab.

4. A milker as claimed in claim 3, wherein a guide is slidably received on said stem and said guide having a limb that extends upwardly in said passageway adjacent said stem.

5. A milker as claimed in claim 4, wherein said exit comprises an outwardly projecting conduit and said conduit, pin and seat are in general alignment with one another.

6. A milker as claimed in claim 2, wherein said chamber is defined by a base and a separable upper enclosure that hermetically seats on said base, said nipples leading into the sides of said enclosures adjacent a lower edge thereof and said nipples extending upwardly between about 5 30 from the vertical.

7. A milker as claimed in claim 6, wherein said enclosure includes a separable air divider cap having teat cup pulsation fittings and a pulsation line inlet, a further vacuum inlet in said enclosure, below said cap, the two inlets being 'in alignment with one another and with said guide pin.

8. A milker as claimed in claim 7, wherein said further inlet has interior seat means and said cap mounts an air opening with an exterior plug, said exterior plug being interconnected to a valve for said seat means through a displaceable member, said plug being mounted to close the air opening when said further inlet is opened.

9. A milker as claimed in claim 8, wherein said displaceable member is an arm having a central hole and a cooperating stud on the interior of said cap is rockably hinged to the arm through said hole, one end of said arm mounting said valve and the opposite arm end being interconnected to said plug whereby said further inlet is closed by said valve when said opening is open to ambient air.

10. A milker as claimed in claim 8, wherein said stem extends upwardly through the passageway of the float, the central hole in said arm and an aperture in said cap to receive a fastener when the milker is assembled.

11. A milker as claimed in claim 8, wherein said displaceable member is a connection to a discshaped valve having a central opening and a cooperating support on the interior of said cap is fitted in said central opening, said plug extending through a side of the cap and connected to said valve, said plug and valve being slidable laterally relative to the cap and said opening being positioned to open and close said further inlet.

12. A milker as claimed in claim 11 , wherein said further inlet is comprised by an elbow having an inner mouth that opens adjacent said stem, said elbow having an exterior entrance and located below said cap.

13. A milker as claimed in claim 11, wherein said connection includes a downwardly extending further guide that enters said passageway.

14. A milker substantially as hereinbefore described with reference to the accompanying drawings.