March 17, 1959 E. A. ZACKHEIM DISPENSINGLIQUID CONTAINERS 5 Sheets-Sheet 1 Filed April 16, 1956 INVENTOR EL! A. ZAC KHEIM.
A ORNEY March 17, 1959 Filed April 16, 1956 E. A. ZACKHEIM DISPENSING LIQUID CONTAINERS INVENTOR ELI A. ZACKHEIM.
E. A. ZACKHEIM 2,877,810
DISPENSING LIQUID CONTAINERS March 17, 1959 5 Sheets-Sheet 5 Filed April 16, 1956 INVENTOR ELI A. ZACKHEIM.
I. I I
6 r I a i 115 Q. Y l Ig 3Q I 6 FIG, II
2,877,810 I DISPENSING LIQUID CONTAINERS Eli-A. Zackheim, South Plainfield, N. J., assignor to Johnson & Johnson, a corporation of New Jersey Application April 16, 1956, Serial No. 578,423
i. 11 Claims. (Cl. 141- -24) v This invention relates to improvements iii-dispensing ;liquid containers. I
More particularly, the invention'is concerned withthe bottling and dispensing of medicinal and otherprepara- .tions of a type administered or measured out by means .ofa dropper or a teaspoon.
. ,Objects of the invention include the prevention of loss i of contents due to spilling, prevention of the drinking of overdoses, particularly by small children, and the provision of quick, accurate means for measurement of dosage.
These objects are achieved in a reliable and simple manner in the container of the invention by a suitable -combination of dropper and bottle closure, in which the dropper abuts againstor engages in an opening in the bottle top, instead of dipping into the bottle as usual,
' and the opening in the bottle top may be reduced in size;
so as to minimize leakage and prevent sucking out of any major part of the contents.
- Dispensing containers embodying the invention in preferred forms will now first be described with reference to the accompanying drawing, and the features forming the invention will then be pointed out in the appended claims.
In the drawing: Fig. 1 is a central vertical section of a bottle and cap embodying the invention in a preferred form;
Fig. 2 is a similar view, showing the parts of Fig. 1 in assembled relation; I
Fig. 3 is a view similar to Fig. 2, but showing the bottle inverted for removing liquid therefrom;
Fig. 4 is a similar view showing the cap removedfor dispensing the liquid;
Figs. 5 and 6 are views similar to Figs. 1 and 2, respectively, but showing a modification;
Fig. 7 is a plan view of the bottle cap element of "Fig. 5;
Fig. 8 is a view similar to Fig. 2, showing another modification;
Fig. 9 is a view similar to Fig. 1, showing another modification;
Figs. 10 and 11 are views respectively similar to Figs. 1 and 2, showing still another modification;
Fig. 12 is a side elevation showing the dropper element of Fig. 10 removed from the bottle and dispensing the liquid;
Fig. 13 is an enlarged section of part of the assembly of Fig. 11, in inverted position;
Fig. 14 is an axial section showing a modification in parts of Fig. 11; Fig. 15 is a view similar to Fig. 14, showing the parts in-a different position; and
Fig. 16 is a bottom elevation of the parts shown in Fig. 14.
Referring first to Figs. 1 to 4 of the drawing, the con- 1 tainer comprises a bottle I, typically of glass and preferably of rigid material for reasons which will appear, having aneck closure 2 in the form of a funnel or cup and is States Patent 0 2,877,810 Patented Man-1' 7, 19 59 ice having acentral discharge opening 3. The size of-th is opening is determined by the character of the liquid and intended use, but for a typical application may be about in diameter, an opening of capillary dimensions being preferred to prevent spillage if the bottle is knocked over or inverted. Adjacent itsupper edge 4 thefitting 2 is secured and sealed to the bottle neck in any convenient manner, as by a pressure fit with or without adhesive.
Thedropper cap 5 has a lowerscrew cap portion 6 internally threaded at 7 to fit the external thread 8 of the bottle cap. An upper dropper-bulb portion 9 may be formed integral with thelower part 6, as shown, and may have graduations for measuring dosage, as indicated. The dropper closure is completed by a funnel or-cupshaped cap fitting 10 secured and sealed to the cap by. its upper rim 11. The fastening and sealing at this point 'may be merely'a pressure fit, or suitable adhesive may be employed. The fitting 10 conforms generally to the shape offitting 2 and has anopening 12 adapted to register with theopening 3 when the cap is screwed on, as
, shown in Fig. 2. The parts are dimensioned and shaped so, that the material surrounding and immediatelyadjacent opening 12 makes a pressure seal to the material similarly surroundingopening 3. With thecap 5 in position as shown in Fig. 2, the
" dropper is filled by inverting the bottle so as to submerge opening 3 in theliquid contents 13. Squeezing and releasing the bulb 9 one or more times, as indicated in phantom and' full lines, will partially or wholly discharge the air from bulb .9 into thebottle 1 and partially for air circulation into and out of the bottle. If the bottle should be tilted,'little or no leakage will occur through anopening 3 of capillary size, while an opening of such dimensions is entirely adequate for permitting removal of a measured dose by means of the dropper. Accidentally drinking a large part of the contents by a small child or other person is very much impeded if not prevented, as the liquid can be sucked out only intermittently, in small quantities and with considerable effort.
It will also be apparent that the filling of the bulb in the position of Fig. 3 where full visibilitymay be had, makes the withdrawal of an accurately measured dose extremely simple.
In the form of container shown in Figs. 5 to 7, the screw cap, bottle and bulb are formed as separable elements. Thebottle 20 is screw threaded at 21 and takes thecap 22 which is internally threaded at 23. The cap incorporates a cup-shaped closure member 24, which may be molded integral with thecap 22, as shown, and in i which is thecapillary discharge orifice 25. A rubber ring or other gasket 26'compr'essed between cap and bottle (Fig. 6) may be provided for sealing the cap and bottle together or an adhesive may be used permanently to seal the cap to the bottle. The dropper takes the form of abulb 27 having anopening 28 and may be formed as a single integral envelope or bulb, as shown. The lower end of thebulb 27 conforms generally to the cup-shaped closure element 24 and includes a circumferential rib orbead 29 fitting a groove 30 in thecap 22. Thebulb 27 being made of polyethylene or like resilient material may "be pressed into the concavity of theelement 24, thebead 29 yielding inwardly and snapping out into groove 30. With thebead 29 in the groove 30, the end of thebulb 27 surrounding the opening 28 will be held against theelement 24 immediately adjacent theorifice 25 with sufficient pressure to form a seal. The filling and use ofbulb 27 is the same as in the case of the dropper-cap of Figs. l-4, butbulb 27 may conveniently be used for purposes, such as administering nose drops, for which the dropper-cap would be relatively clumsy.
In the form shown in Fig. 8, the dropper bulb is again separable from the cap, but, in this case, the parts are all screwed together for more secure attachment and more powerful sealing pressure between bulb and bottle neck fitting. Thebottle 40 has a screw threadedneck 41 and takes an internally threadedcap 42, provided with a center part 43 having an internally threaded socket orcylindrical recess 44 at the bottom of which is a discharge orifice 45 (preferably of capillary size, as before). Thedropper bulb 46 has abase 47 formed as a threaded plug fitting thesocket 44 and surrounded by ashoulder 48.Passage 49 through theplug 47 communicates with passage 45, above mentioned.Bulb 46 and itsplug 47 may be formed integrally of polyethylene or like material, or thebulb 46 and plug 47 may be of different materials and joined together in any suitable way. In this case, the screw threaded part may be of material such as plastic or metal. Thebulb 46 is filled and used in the same manner as described above, apart from being attached and removed by a turning movement. The screw threads of the bottle and cap may be of the same hand as those of the plug and socket, or of opposite hands.
In the modification of Fig. 9, abottle 50 and neck fitting 51 secured and sealed together as in the embodiment of Figs. 1 to 4, are used with abulb 55 generally like that of Figs. -7. However, the parts are arranged to hold the bulb to the bottle in such a way as to provide a secondary seal as additional protection against leakage and to obtain an appropriate orifice coupling pressure. In this modification, thebottle 50 is provided .with ascrew thread 53, as before, and the neck fitting 51 has a preferablycapillary orifice 52. The internally threadedscrew cap 54 receives thebulb 55 in a central aperture, the bulb being inserted, however, from below and thehead 56 serving as a shoulder to stop upward movement of thebulb 55 and hold it in the cap54. Thelower part 57 of the bulb conforms generally to the fitting 15 and has an orifice oropening 58 communicating withorifice 52 when the parts are screwed together.Bead 56 may function also as a gasket betweencap 54 and the lip ofbottle 50 and furnishes a secondary seal which is of utility in shipment and when traveling. The geometry and dimensions of the parts are such that when thecap 54 is screwed home and thebead 56 is in contact with the lip of fitting 51 which engages the top of the bottle, thecapillary orifices 52 and 58 are in registry and in sufiiciently close engagement as to permit suction in thetube 55 to withdraw fluid from the bottle.
In Figs. to 13, there is-shown a modification, in which provision for more complete use of contents is made and in which the dropper takes the form of a dispensing tube of generally familiar type and usable for a variety of purposes. Thebottle 60 is of the widely used serum bottle type and the neck closure fitting 61 is fastened and sealed to the bottle by a spun metal ring orcollar 62 having alower flange 63 under theshoulder 64 on the bottle neck and anupper flange 65 on theperipheral flange 66 of fitting 61.Flange 66 may be thereby compressed against the bottle so as to form a seal of any desired tightness. A collar orcylindrical flange 67 extendsmember 61 into the neck of the bottle and may have a tight sealing fit therein, either supplementing or replacing the seal by the compression offlange 66.Member 61 is extended vertically, having a generally conical recess orsocket 68 terminating in acapillary discharge orifice 69. Aboveorifice 69 is an enlarged bore having anedge 70 for engaging thetip 78 as shown and the upper edge ofrecess 68 is constructed to form ashoulder 71. Thedropper element 72 comprises abulb 73 andtip 74 generally conforming to theconical recess 68. Agroove 75 is provided to take theshoulder 71. The tip from this point through about a third of its length and to a stop orshoulder 77 fits therecess 68 snugly, but theremainder 78 of the tip is reduced to leave a clearance, as indicated in Fig. 13. In consequence, the end of thetip 74 surrounding the opening 79 thereof engagesedge 70 firmly, forming a good and reliable seal at this point, and with a pressure determined by the distance fromgroove 75 to the end of thetip 74 as compared with the distance fromshoulder 71 to edge 70. The bulb may be molded in one piece and closed off at the end by heat sealing as at 80, polyethylene being again a very convenient material. Neck fitting 61 may conveniently be molded of rubber, synthetic rubber, silicone rubber or polyethylene.
The bulb is filled in the inverted position or position of Fig. 13 in the same manner as indicated with reference to the modifications of Figs. 1-9, inclusive. It will be observed, in this case, however, that the entire contents of the bottle may be removed, due to the absence of any element projecting down centrally of the bottle and having a space around it in which liquid may collect in inverted position.
Figs. 14 to 16 show a still further modification. The dispensing bottle may be, apart from the parts shown, identical with that shown in Figs. 10 to 13. However, there is substituted for the neck closure fitting 61, a neck closure fitting 61a which is attached to the bottle (not shown) in a similar manner to the neck fitting 61, and for thedropper 72 an otherwise similar dropper having a modifiedtip 74a. In this modification, the neck fitting 61a has a generally conical recess orsocket 68a, which receives a similarly shapedlower portion 78a on thetip 74a with clearance, as indicated. The upper part of the socket at 81 is cylindrical and preferably formed with raised rings, parallel ridges, or screw threads 181a, as indicated, receiving a correspondingly cylindrical but screw threadedportion 82 of thedropper tip 74a. For storage and transportation, the dropper may be pushed into the position shown in Fig. 14, where its tip just reaches the bottom 83 of the recess orsocket 68a. The parts are held in this position against inadvertent movement by the interengagement of the rings, ridges or screw threads 81a as the case may be with the threadedportion 82 of the dropper.
.to dispense liquid from the bottle, thetip 74a of the dropper is pushed into the recess, as indicated in Fig. 15, so that its extreme lower end, pushing against the center of thevpierced portion 84, separates the bottom 83, as indicated in Fig. 15, establishing communication ,be-
tween the space within the dropper and the space within the bottle. The method of extracting the desired dose or quantity is the same as described in connection with Figs. 10 to 13.
.Piercing the bottom of therecess 68a so that there is an automatic closure when the dropper is removed,
and making provision for positioning the dropper in its normal non-use position just clear of the bottom, results in an arrangement which on the one hand discourages a set" of the material in open position and on the other hand maintains a seal, with the dropper removed, sufficiently tight to prevent passage of liquid even under conditions of normal sucking.
What is claimed is:
1. A liquid dispensing container comprising a bottle and neck closure therefor, the neck closure having an opening for sucking out liquid and positioned above the liquid level when the bottle is in upright position, a bulb having an opening for receiving liquid, and further means for removably holding the bulb pressed against the neck fitting with the openings in communication.
2. A liquid dispensing container according toclaim 1, in which the last said means comprises a screw cap for the bottle and means fixing the bulb therein.
3. A liquid dispensing container according toclaim 1, in which the last said means comprises a screw cap and means detachably securing a bulb therein.
4. A liquid dispensing container according toclaim 3, in which the said detachably securing means comprises a threaded connection between bulb and cap.
5. A liquid dispensing container according toclaim 3, in which the said detachably securing means comprises a cooperating rib and groove snap fitting between cap and bulb.
6. A liquid dispensing container comprising a bottle and neck closure therefor, the neck closure having a capillary opening for sucking out liquid and positioned above the liquid level when the bottle is in upright position, a bulb having an opening for receiving liquid, and further means for removably holding the bulb pressed against the neck fitting with the openings in communication.
7. A liquid dispensing container comprising a bottle and neck closure therefor, the neck closure having a capillary opening for sucking out liquid and positioned above the liquid level when the bottle is in upright position, a bulb having an opening for receiving liquid, further means for removably holding the bulb pressed against the neck fitting with the openings in communication, and an upstanding rim about the said capillary opening for scaling to the said bulb around the openings.
8. A liquid dispensing container comprising a bottle and neck closure therefor, the neck closure having an opening for sucking out liquid and positioned above the liquid level when the bottle is in upright position, a bulb having an opening for receiving liquid, further means for removably holding the bulb pressed against the neck fitting with the openings in communication, the said bulb being transparent, whereby the bulb may be filled from the bottle with the bottle inverted and the liquid level in the bulb may be observed through its wall.
9. A liquid dispensing container comprising a bottle and neck closure therefor, the neck closure having a pierced resilient portion forming a seal and adapted to open when pressure is exerted against the pierced resilient portion, said resilient portion being positioned above the liquid level when the bottle is in upright position, a bulb having a tip with an opening for receiving liquid and adapted to spread the pierced resilient portion when pressed thereagainst to establish communication with the interior of the bottle, further means for removably holding the said tip in a position where it does not press against the pierced resilient portion and for holding it in a position pressing aganst the pierced resilient portion and opening the same.
10. A liquid dispensing container comprising a bottle and neck closure therefor, the neck closure having a pierced resilient portion forming a seal and adapted to open when pressure is exerted against the pierced resilient portion, said resilient portion being positioned above the liquid level when the bottle is in upright position, a bulb having a tip with an openng for receving liquid and adapted to spread the pierced resilient portion when pressed thereagainst to establish communication with the interior of the bottle, a socket above the pierced resilient portion engageable with the said tip for holding it in a position where it does not press against the pierced resilient portion and for holding it in a position pressing against the pierced resilient portion and opening the same.
11. A liquid dispensing container according to claim 10, in which the said socket and tip have correspondingly threaded sections engageable for holding the tip selectively in the two said portions.
References Cited in the file of this patent UNITED STATES PATENTS 518,161 Pollard Apr. 10, 1894 650,617 Salomon May 29, 1900 1,203,919 Simpson Nov. 7, 1916 2,489,035 Jones Nov. 22, 1949 2,644,183 Kellett July 7, 1953 2,773,521 Persson Dec. 11, 1956