US2724535A - Filling valve for apparatus for filling containers with liquid - Google Patents

Description

Nov. 22, 1955 c L DAY ET AL 2,724,535

FILLING VALVE FbR APPARATUS FOR FILLING CONTAINERS WITH LIQUID Filed Oct. 4, 1951 IN VENTORS iw pwyxww ATTORNE YS.

t 2,724,535 mtiNGvALvE FOR APPARATUS FOR FILLING CONTAINERS WITHLIQUID Carl L. Day and Leo F. Pahl, Baltimore, Md., assignors to Crown Cork & Seal Company, Inc., Baltimore, Md., a corporation of New York a Application October 4, 1951, Serial No. 249,664

6 Claims. Cl. 226-124) "This invention relates to a filling noz zle or head for filling containers with non-carbonated or still liquid. More particularly, this invention relates to an improved filling head for conventional automatic bottle filling machines of the type which have a filling platform, on

which is opened by the engagement and movement of a portion of the head with a container to be filled, to

thus automatically permit liquid to flow from the reservoir through a filling passage in the head and into the container. In order to prevent overflow of the container being filled, the head is provided with an annular .gasketfor pad that is engageable with the mouthof c the container to seal the same from the, atmosphere. This seal creates the problem of properly venting air from the container during the. filling thereof with liquid. Accordingly, the filling head must be constructed to incorporate a vent passage in addition to the filling or liquid passage. The .vent passage usually leads to the airspace above the liquid in the reservoir, which space, for usetwith filling heads of the type under consideration, isunder pressure less than atmospheric. Filling machines of this type are called vacuum machines. After the container has been filled, it is lowered from engagement United States Patent It is another object of this invention to provide a filling head of the type described which is dripless.

It is still another object of this invention to provide a filling head of the type described in which the liquidoutlet and the vent inlet are so located and arranged as to prevent blocking of the vent during the filling operation.

It is still another object of this invention to provide a filling head of the type described that can easily and quickly be disassembled for cleaning purposes and can bereassembled in an extremely short time.

It is still another object of this invention to provide a filling head of the'type described having a minimum of parts to thereby avoid joint crevices in which beverage residues may collect so ast o render inspection and cleaning of the head an extremely simple operation.

It is still another object of this invention to provide a filling head of the type described which reduces to a minimum the foaming, during a filling operation, of readily-foaming liquids, such as soaps, etc.

It is a further object of this invention to provide a filling head of the type described with a simple containerinsertable tip portion which readily centers a container during the inserting movement between the container and the filling head without damage to the container or to the tip.

Other objects and advantages of this invention readily will be apparent from the following description and accompanying drawings, in which:

Figure 1 is a fragmentary elevational view, partly in section, of a portion of a container filling machine illustrating a filling head embodying this invention in operwith the head to automatically close the valve and stop 6 the flow of liquid.

Filling heads of the aforementioned type present numerous problems which must be overcome to provide satisfactory operation without undue complexity. Among these problems, may be mentioned those of providing a structure which easily may be taken apart and cleaned for sanitary reasons, as when filling containers with various types of beverages, of providing a head which is driples s to avoid a messy and unsanitary condition of the filling machine, of preventing blocking of the vent passagewith the liquid, of providing a container-insertable 1tip which readily will enter the mouth of an offcenter lcontainer without damage to the container or the tip, and of preventing undue foaming of readilyfoaming liquids upon discharge into the container from the filling head. Additionally, another problem involves the construction of a filling head. with a minimum of parts, inorder to minimize crevices in which beverage residues may be deposited, for the purpose of meeting various sanitary codes for filling bottles with milk and similar beverages.

Accordingly, it is an object of this invention to provide an improved filling head for vacuum apparatus for filling-containers with non-carbonated or still liquids.

ative filling engagement with a container to be filled.

Figure 2 is an enlarged vertical sectional view of the filling head illustrated in Figure 1.

Figure 3 is a cross-sectional view taken online 3-3 of Figure 2.

Figure 4 is an enlarged fragmentary side view of the tip. portion of the filling head shown in Figure 2.

Figure 5 is an enlarged fragmentary side View of the extreme upper part of the filling head shown in Figure 2.

Referring now to the drawings, there are shown in Figurela filling platform 20 and a superposed, preferably constant-level,liquid reservoir 22 that are conventional in automatic bottle filling machines of the type with which this invention is concerned. Theairspace 24 above the liquid in the reservoir is maintained under a pressure less than atmospheric by means of suitable vacuum producing means, such as a pump (not shown). A small-mouthed beverage bottle 26 is shown on theplat form 20 in filling position, but it will be realized that a filling head embodying this invention is adapted to fill all types of liquid containers, whether of glass or other material. Thereservoir 22 is provided with aremovable cover 28 and a depending annular boss ordownspout 30 positioned directly over thefilling platform 20. Thedownspout 30 has a smoothcylindrical bore 32 therethrough and is provided, adjacent thebottom wall 34 of thereservoir 22, with an upwardly facing frusto-conical valve seat 36.

A one-piece weightedvalve body 38 is mounted for vertical slidable movement within thebore 32 of thedownspout 30 and has an enlarged upper portion forming ashoulder 40 against which a detachable ring orannular valve head 42, preferably of rubber, is seated. The lower edge of thevalve head 42 has a frusto-conical sealing surface 44 complementary to and seating on thevalve seat 36. A reduced lower portion of thevalve body 38 fits snugly within thebore 32 of thedownspout 30 and extends downwardly to depend somewhat therebelow when' the valve body is seated on theseat 36. Preferably, the reduced lower portion of thevalve body 38 is provided Patented Nov. 22, 1955 with acircumferential groove 46 having anO ring 48 positioned therein for providing a sealed sliding fit between thevalve body 38 and thebore 32 of the downspout-30;

Anaxial bore 50 extends vertically through'thevalve body 38 which is provided, immediately below the valve head 42', with a lateral.port 52. Thisport 52, when thevalve body 38 is seated on thevalve seat 36, is disposed completely within thebore 32 ofv thedownspout 30, but when the valve body is lifted from its seat, as later described, theport 52 permits liquid to flow therethrough from thereservoir 22 into thebore 50. Mounted in a counterbore at the lower end of thebore 50 is a depending cylindrical tube constituting, atip 53 that is adapted to be inserted into the mouth of a container to be filled. The lower end of thetip 53 isof a particular configuration which. will be described later in detail.

Mounted in a. counterbore at the upper end of thebore 50 through thevalve body 38 is a shortcylindrical tube 54 which projects upwardly into the reducedpressure airspace 24 over the liquid in thereservoir 22. Thetubes 53' and 54 and thebore 50 are of equal inner diameter for reasons later obvious. An elongateddiametric partition 56 is suspended within thetubes 53 and 54' and thebore 50, to extend the entire length thereof, by means of a transverse supporting pin- 58 which rests inopposite notches 60 formed in the upper edge of thetube 54, as shown best in Figure 5. Preferably, thepartition 56 has an easy sliding fit within thebore 50 and thetubes 53 and 54' to permit ready assembly and disassembly of the partition therein and therefrom, yet a fit sufiiciently tight to prevent appreciable leakage of fluid around the side edges ofthe partition. It will be noted that the lateral port 52in the reduced portion of thevalve body 38 communicates with the bore 50' only on one side of thediametric partition 56.

By reason of the foregoing construction, it will be seen that the space on one side of the partition forms avent passage 62 providing communication between the interior of the container to be filled and the reduced pressure airspace 24' above the liquid in thereservoir 22. The space on the other side of thepartition 56 forms a liquid or fillingpassage 64 extending downwardly from thelateral port 52 to the lower end ofthetip 53 for flow of liquid thereinto, from thereservoir 22 through the port 52-, and downward into the container 26' when the valve body 38- is raised off itsseat 36, as later described. The continuation of the space on the said other side of thepartition 56 above the.lateral port 52 forms aseparate vent passage 66 providing direct communication between the upper end of thefilling passage 64 and the reducedpressure airspace 24 above the liquid in thereservoir 22,v for reasons later described.

Snugly mounted on thetip 53 and seated against the projecting lower end of thevalve body 38 is an annular I sealinggasket orwasher 68, of rubber or other appropriate material. Thiswasher 68 is adapted to contact and seal the mouth of thecontainer 26 from the surrounding atmosphere during the filling operation. Replacement of thiswasher 68 by others of different thickness affords a convenient method for adjusting the filling height or 7 between the'valve body 38 and the bore-32 of the downspout during the filling operation.

The lower end of thetip 53 is of substantially ogival configuration for a substantially diametric. halfthereof, as indicated generally at 70,.to thereby provide thefilling passage 64' with a closed tapering container-insertable end. The other diametric half of the tip 53'terminates in a bevelled cut-offopen end 72 that is offset upwardly,

or rearwardly, from the ogivalclosed end 70 of the fillingpassage 64. Preferably, thebevelled end 72 of thetip 53 is inclined upwardly and rearwardly from a point approximately adjacent the base of theogivalclosed end 70. The dividingpartition 56 extends downwardly to a point adjacent the base of the ogivalclosed end 70 to thus leave an open diametric side for the ogival closed end that constitutes a discharge outlet 74' for the fillingpassage 64, while the bevelledcut-01fend 72formsan inlet 76 for thevent passage 62. This constructionserves to separate theliquid discharge outlet 74 and thevent inlet 76 to an extent sufiicient to prevent blocking of the vent inlet with liquid during the filling operation. Additionally, it will be seen that this construction provides a filling tip that will readily enter and center a container improperly positioned on the fillingplatform 20 when the latter lifts the container into engagement with/the filling head. Furthermore, it will be seen that because: of the lateral location of the "liquiddischarge outlet 74 and the deflecting surface provided by the. inner side. of

the closed o-givalend 70, liquid will flow against the side of the container being filled, as shown in Figure 2, to

thereby minimize foaming of readily-foaming liquids. during. the filling. operation.

For manufacturingpurposes, thetip 53 may be formed by spinning the end of a tube into a closed ogival shape and the closed ogival end subsequently cut away by axial and laterally slanted cuts to form the final tip illustrated. in this connection it will be realized that the specific con-.

figuration of the end of thetip 53 is useful in other types The operation of the filling head is as follows: With.

thecontainer 26 positioned on the filling platform. 20,

rotation of the filling table andreservoir 22 results in raising the platform to cause the container mouth to move upwardly over the fillingtip 53 into sealing engagement with thegasket 68 to thereby seal the interior of the con-- tainer from the outside atmosphere. Because the. vent;passage 62 is constantly open, the interior of thecontai'ner 26 is thereby placed under the reduced pressure; of thereservoir airspace 24. In the event that thecontainer 26 is improperly centered on the fillingplatform 20, the configuration of the end of the filling tip 53' serves to properly center the mouth of the container for, reception of the tip. Continued upward movement of the fillingplatform 20 serves to raise the entire valve assembly, thereby lifting thevalve head 42 from its/seat 36,. as.

shownbest in Figure 2, and permitting liquidto flow above thelateral discharge outlet 74 of the fillingpassage 64 to prevent the liquid flowing into the container from blocking or interfering with the venting of the container. Thecontainer will continue to be filled until-the level of the'liquid therein reaches thevent inlet 76, at which Liquid will continue] time the filling operation will cease. to rise through thevent passage 62, however, until it stands in bothpassages 62 and 66 at the level of the liquid in thereservoir 22; At thispoint thecontain'er 26 is filled and ready to be withdrawn. In normal prac tice, however, the timing of the filling machine is such that fillingplatform 20 is lowered and the container 26' withdrawn when the level of the liquid therein reaches thevent inlet 76, Without an unnecessary n'se'of liquid thepassages 62 and 66. g 9 l I When the filling platform 20lowers and the filledcon tainer 26 starts its withdrawing or downward movement,

the weight of thevalve body 38 maintains the seal be Jul f. q a

tween the mouth of the container and thegasket 68 until thevalve head 42 seats on itsseat 36. As the filling platform continues to lower, simultaneously with the seating of thevalve head 42, thecontainer 26 will break away from its engagement with thegasket 68. At this instant the reduced pressure within theairspace 24 of thereservoir 22 becomes effective to suck any liquid standing in thevent passage 62 up into the reservoir, thus clearing the vent passage of liquid in preparation for the next filling cycle. It is pointed out that the pressure in theairspace 24 is not low enough, however, to prevent the filled container from breaking, by gravity, its sealing engagement with thegasket 68.

At the end of the downward movement of the valve assembly, liquid is trapped and stands within the fillingpassage 64 and thelateral port 52. Simultaneously with the breaking away of the container mouth from thegasket 68, the reduced pressure within theairspace 24 of the reservoir becomes effective, through thepassage 66, to suck the liquid standing in thelateral port 52 and fillingpassage 64 up into thereservoir 22, thus preventing any drip of liquid from thetip 53 after the mouth of thecontainer 26 is disengaged from the annular gasket 63 and the container is lowered completely away from the filling head. Thus, the suction effected through thepassage 66 serves to prevent any messy or unsanitary condition of the filling machine because of aftendrip from thetip 53.

Thereafter another container is positioned on the filling platform and the above described filling cycle is repeated.

The construction of the nozzle facilitates the ease of disassembly for cleaning and reassembly in operating position within thereservoir downspout 30. In order to dis assemble the filling head, thegasket 68 is first pulled off of thetip 53 in order to permit thevalve body 38, plus the remaining associated parts, to be removed upwardly from thedownspout 30. Thereafter, thepartition 56 may be pulled upwardly out of thetubes 53 and 54 and thebore 50, and a brush used to effectively clean the bore and the tubes. Additionally, the valve ring orhead 42 may be pulled from its seat against theshoulder 40 and separately detached for cleaning. The reassembly of the filling head will be obvious from the above description.

It will thus be seen that the objects of the invention have been fully and effectively achieved. It will be realized, however, that the specific embodiment used to illustrate the principles of the invention is susceptible to various changes without departing from such principles. Therefore, this invention embraces all modifications which are encompassed by the spirit and scope of the following claims.

We claim:

1. A filling head for use with container filling apparatus having a filling platform, a superposed reduced-pressure liquid reservoir, one of which is vertically movable, an

outlet in the bottom of the reservoir, and an upwardlyfacing valve seat surrounding the outlet, said head comprising: a valve assembly mounted for vertical movement in the outlet for cooperation with the seat and depending through and below the outlet for insertion into the mouth of a container to be filled and extending upwardly into the reduced-pressure airspace in the reservoir above the liquid therein, said assembly having a vertical bore therethrough and a lateral port between the ends thereof for inflow of liquid upon upward movement of said assembly; and a removable diametric partition in said bore dividingthe latter into a liquid passage for receiving liquid from said lateral port and a vent passage, both of said passages pro viding communication between the reduced-pressure airspace above the liquid in the reservoir and the container interior.

2. The structure defined in claim 1 including supporting means secured to the upper end of the partition and engaging the valve assembly adjacent the upper end of the bore for suspending said partition therewithin.

3. In a filling head for vacuum-venting filling machines having a source of suction, a filling platform, and a super posed liquid reservoir, the combination of an assembly having a portion thereof adapted to depend from the reservoir for insertion into a container to be filled; means defining a vertical bore extending upwardly through said depending portion from the lower end thereof for communicating, at the upper end of said bore, with the source of suction, said bore having a lateral port for inflow of liquid from the'reservoir; valve means controlling said inflow; and a removable diametric partition in said bore dividing the latter into a liquid passage for receiving liquid from said lateral port and a vent passage, both of said passages being adapted to communicate, at their lower ends, with the interior of the container and, at their upper ends, with the source of suction.

4. In a filling head for filling apparatus having a filling platform and a superposed liquid reservoir, at least one of which is vertically movable, the combination of a substantially cylindrical tip adapted to depend from the reservoir for insertion into a container to be filled, said tip having separate liquid and vent passages extending vertically therethrough, a substantially diametric half of the container-insertable end of said tip being of ogival configuration and the other half of bevelled cut-off configuration offset rearwardly of the apex of the ogival half to provide an open side to said ogival half, said cut-off half providing an inlet for said vent passage and the open inner side of said ogival half providing a discharge outlet for said liquid passage.

5. In a filling head for filling apparatus having a filling platform and a superposed liquid reservoir, at least one of which is vertically movable, the combination of a substantially cylindrical tip adapted to depend from the reservoir for insertion into a container to be filled, said tip having separate liquid and vent passages extending vertically therethrough, a substantially diametric half of the container-insertable end of said tip being tapered to a closed end and the other half terminating in a bevelled cut-off open end offset rearwardly of said tapered half, the inlet to said vent passage being provided by said cutoff open end and the outlet to said liquid passage being located in the diametric side of said tapered closed end.

6. For use in a filling head for filling apparatus having a filling platform and a superposed liquid reservoir, at least one of which is vertically movable, an outlet at the bottom of the reservoir and an upwardly-facing valve seat surrounding the outlet, the combination comprising: a valve assembly adapted to be positioned within said outlet for vertical slidable movement therein, said assembly having an upwardly-tapering exterior portion terminating in a downwardly-facing shoulder and a valve washer mounted on said portion against said shoulder, said washer having an interior surface complementary to said upwardly-tapering portion of said assembly and a lower end surface adapted for sealing engagement with the valve seat.

References Cited in the file of this patent UNITED STATES PATENTS 978,154 Haller Dec. 13, 1910 1,019,317 Goodwyn Mar. 5, 1912 1,325,991 King Dec. 22, 1919 1,793,684 Dunn Feb. 24, 1931 2,522,898 Sanborn Sept. 19, 1950

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