US2309290A

US2309290A - Cooling nozzle for tempering hollow glassware

Info

Publication number: US2309290A
Application number: US306125A
Authority: US
Inventors: William E Aksomitas
Original assignee: Hartford Empire Co
Current assignee: Hartford Empire Co
Priority date: 1939-11-25
Filing date: 1939-11-25
Publication date: 1943-01-26
Anticipated expiration: 1960-01-26

Description

Jan. Z6, 1943. w. E. AKsoMlTAS l 2,309,290-

I COOLING NOZZLE FOR TEMPERING HOLLOW GLASSWARE Filed-Nov. 25, 1939 Patented Jan. 26, 1943 COOLING NOZZLE FOR TEMPERING HOLLOW GLASSWARE William E. Aksomitas, Hartford, Conn., assignor .to Hartford-Empire Company, Hartford, Conn.,

a corporation of Delaware v Application November 25, 1939, Serial No. 306,125

(Cl. 49-45l 5 Claims.

The present invention relates to tempering hollow glassware, such as bottles and jars, each of which has a single restricted opening.

It provides a novel internal cooling nozzle adapted to enter the ware through the opening and to apply a cooling medium, as for example, air or steam, to the internal walls in a plurality of jets and to remove the spent medium through a plurality of spaced exhaust openings.

The nozzle and the ware may be rotated relatively to each other so that the cooling .iets scan the walls. The exhaust openings in the nozzle may be so located that they follow the jets in adjacent planes and thus remove the spent gases without objectionable interference with the cooling jets,

The nozzle may be employed with any suitable apparatus, as for example, that disclosed in the application of Thomas D. Green, Serial No. 306,085 filed, November 25, 1939, the same date as this application, by which the ware while being cooled, may be held by tongs and locked in proper alignment by a member contacting the rim of the Ware. The nozzle of my invention may be provided to handle all exhaust gases or it may be arranged to carry only a part thereof, the remainder passing out of the ware around the nozzle.

My novel method of tempering glassware of the types mentioned comprises blowing jets of cooling medium at a plurality of levels against the interior walls of the ware and removing the spent gases from the ware at a plurality of levels.

Other features of my invention will be apparent from the following specification and drawing of which:

Figure 1 is aview in vertical section of one form of nozzle of my invention shown in association with a narrow neck bottle held by tongs and a locking member;

Fig. 2 is a section on line 2-2 of Fig. 1;

Fig. 3 is a view in elevation of a combined tong and nozzle mechanism with which the nozzle of Figs. l and 2 may be employed.

The apparatus of Fig. 3 is substantially the same as that shown in the aforesaid Green application, and as shown comprises a tubular casing II mounted on a bracket I2. Within the casing I land extending above and below it is a tubular member I3 which carries a sleeve I4, providing a mounting for tongs I5. annular disk-like form is mounted on a lower end of the member yI3 for contact at its lower surface with the mouth end of an article of hollow glassware which has been. gripped by the tongs I5.

The member I3 is mounted for rotation, when def' A locking member I6 of sired, through a beveled gear I8 and connection shown, by a motor I9.

The nozzle 20 is removably carried by a pair of concentric tubular members 2| spaced apart but secured together and within the member I3, above which they extend to carry beveled gear 22 by which the nozzle may beA rotated about its axis. The nozzle may be moved vertically relatively to an article of ware gripped by the tongs, by means -including lever 23 and link 24 connected to sleeve 25 on the member 2I between collars 26 and 2l.

An external cooling device is indicated at 28 which may be rotated through sprocket 29. A

The locking member I6 may, if desired, be provided with seri-ations 3D in its lower surface to provide exits of selected size for a predetermined portion of the spent cooling medium which passes through the restricted passage 3| between the nozzle and the wall of the neck iinish and scrubs the internal wall of the neck of the bottle. Such an arrangement may provide for adequate cooling without excessive chilling of the neck.

The nozzle 2i)`comprises an outer tube 32 se,- cured at its lower end to an inner tube 33, the space between the two providing an inlet passage 34 for the cooling medium. An exhaust passage is provided within the tube 33. Thevouter tube is provided with a series of spaced jet holes 35, the sizes of the holes and their spacing being selected to give the desired jet pattern. l The internal tube 33 communicates through passages 3B with a sem ries of exhaust holes 3l in the outer tube 32. These exhaust holes are preferably spaced from the holes 35 about the periphery of the tube and are preferably located in horizontal planes between the planes of the holes 35. At the lower end of the nozzle are provided jet holes 38 directed toward various portions of the bottom and/or lower corners of the ware. The lower end of the inner tube 33 is open to provide an exhaust hole adjacent the bottom of the ware. Cooling medium under pressuremay be supplied to the nozzle from a source (not'shown) through pipe 39, and the space between the members 2I and the spent gases may exhaust through the inner of the members 2I and exhaust pipe 40.

As shown in Figs. 1 and 2, the nozzle is provided withia single vertical row of inlets 35 and a single vertical row of outlets 31. If desired, these rows may be multiplied to give a better scanning effect and the exhaust holes 31 may be located in the same planes as the jet holes or in planes between the jets. Ordinarily the exhaust holes provided are somewhat larger than the in-l let holes and they may be more'or less in number as desired. v

In the use of the nozzle shown in Fig. 1, I contemplate that the ware and the nozzle be rotated relatively one to the other to cause the jets from the

holes

35 and 38 to scan the surface of the walls. In general the jets from holes 35 are normal to the side walls. One or more of them may be directed at different angles. After contact with the wall the medium which has been heated by contact with the wall tends to return between the planes of the jets and generally in the planes of the exhaust holes by which it is rapidly and eiliciently removed from the ware. Similarly the provisions of the holes 38 and the bottom exhaust hole tend to remove the heated gases in paths which'provide little, if any, interference with the oncoming cooling jets.

The cooling jets are thus made more eicient A than they would be were they forced to pass through streams of exhausting gases moving transversely of the jets toward the opening in the were. Various modifications of my invention may be made without departing from the invention as expressed in the accompanying claims.

Having described my invention what I claim 1s:

l. Apparatus for internally chilling hollow glassware having a single opening, which comprises a nozzle projecting 'into the ware in substantially vertical axial alignment therewith, the said nozzle having a longitudinally extending passage for cooling medium and a longitudinally extending passage for exhaust gases, having openings communicating with the rst passage and spaced vertically along the nozzle for projecting jets of cooling medium into the glassware, and having exhaust openings also vertically spaced along the nozzle and communicating with said second named passage for removing spent cooling medium from the ware in zones adjacent to the zones of application of the cooling medium.

2. A 'nozzle for internally cooling a bottle, jar and other hollow glassware, having a single restricted opening, which comprises a tubular member smaller in 4cross section than the opening in the glassware and extending a substantial distance into the ware, said tubular member having a longitudinally extending passage for the inflow of a gaseous cooling medium, having lateral outlets from the passage spaced along the tubularrmember for projecting gaseous cooling medium against the inner surface of the glassware having a longitudinally extending exhaust passage, and having a plurality of inlets cornmunicating with the exhaust passage and spaced along the tubular member, whereby gaseous medium may be removed from the glassware at a plurality of levels.

' the internal walls of the ware, said nozzle hav- 3. Apparatus for tempering bottles and other hollow glassware having a, single opening therein, a nozzle for distributing cooling medium to ing a longitudinally extending inlet passage and a longitudinally extending exhaust passage, hav.- ing a. row of holes spaced along the nozzle through which jets of cooling medium from the inlet passage may be directed to the walls of` the ware in different planes, and having a row of exhaust outlets communicating with the exhaustypassage and spaced along the nozzle to remove cooling medium from the glassware at a plurality of levels, and means for causing relative rotation between the nozzle and the ware.

4. In apparatus for tempering bottles and other glassware, having a single opening therein, a nozzle for distributing cooling medium to the interior walls of the ware, said nozzle having a longitudinally extending inlet passage and a longitudinally extending outlet passage, having a row of holes spaced along the nozzle through which jets of cooling medium are directed from the inlet passage in planes generally normal to the side walls of the ware, having a row of outlet openings for the removal of some of the spent cooling medium in planes adjacent to the rst named planes, having a hole adjacent to the end of the inlet passage and communicating' therewith to direct a jet diagonally toward the bottom of the ware, having an opening at the end of the outlet passage for removing spent cooling medium from a space adjacent to the bottom of the ware, and means for causing relative rotation between the ware and the nozzle.

5; In apparatus for tempering bottles` and other hollow'glassware, having a single opening therein, a nozzle for distributing cooling medium to the internal walls of the ware in accordance with aselected pattern, the nozzle having `a longitudinally extending inlet passage and a longitudinally extendingY outlet passage, having a plurality of inlets communicating with the firstnamed passage along the length and adjacent the end of the nozzle spaced in accordance with the desired pattern, having a plurality of outlets communicating with the outlet passage, distributed along the sides and adjacent theend of the nozzle and laterally spaced from the inlets, the outlets being so located and of such size as to remove spent cooling medium from the glassware without substantial interference with the application of cooling medium from the inlets to the walls to effect the desired pattern of cooling, and means for causing relative movement between the ware and the nozzle to distribute cooling medium from said jets over the area of the interior walls in accordance with the desired pattern.

WILLIAM E. AKSOMITAS.