CA1053468A - Individual section high speed glassware forming machine - Google Patents

Individual section high speed glassware forming machine

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Publication number
CA1053468A
CA1053468A CA296,095A CA296095A CA1053468A CA 1053468 A CA1053468 A CA 1053468A CA 296095 A CA296095 A CA 296095A CA 1053468 A CA1053468 A CA 1053468A
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Canada
Prior art keywords
station
parison
tongs
neck ring
mold
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
CA296,095A
Other languages
French (fr)
Inventor
Thomas V. Foster
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Emhart Industries Inc
Original Assignee
Emhart Industries Inc
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Filing date
Publication date
Priority claimed from GB54389/73A external-priority patent/GB1491859A/en
Application filed by Emhart Industries Inc filed Critical Emhart Industries Inc
Application granted granted Critical
Publication of CA1053468A publication Critical patent/CA1053468A/en
Expired legal-status Critical Current

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Abstract

ABSTRACT OF THE DISCLOSURE
A process of forming glassware in a press and blow technique utilizing at least one upright parison mold in a first station of a forming machine section which also has two additional stations spaced apart longitudinally of the section.
The process comprises the following steps: placing a gob of molten glass in the parison mold; closing the parts of a neck ring over the parison mold and then thrusting a plunger through the neck ring to form a parison; removing the plunger and mold from the parison to leave the parison suspended by the neck ring; transferring the neck ring to the next adjacent or second of the stations; engaging the upper portion of the parison at the second station to support the same for further forming; re-turning the neck ring to the first station; engaging the upper portion of the further formed parison by first tongs at the second station; transferring the first tongs and further formed parison to the third station; engaging the further formed parison at the third station to support the same for final shaping; re-turning the first tongs to the second station; blowing the pari-son to the final shape of an article of glassware at the third station; engaging the upper portion of the article by second tongs at the third station; transferring the second tongs and sus-pended article to a point beyond the third station; releasing the article at said point; and returning the second tongs to the third station.

Description

105~468 This application is a division of application serial number 213,011, filed November 5, 1974.
Individual section (I.S.) glassware forming machines such as shown for example in U.S. Patent NQ. 1,911,119, comprise a plurality of sections arranged in side-by-side relationship.
Each such section in and of itself comprises a forming machine for converting a molten gob of glass at first into a parison and then into a finally shaped article of glassware. That is, each such section includes at least one parison mold, wherein parisons are formed either by pressing or blowing, and at least one final shaping blow mold wherein the parisons are blown into the final shape of the desired article of glassware. In the conventional I.S. machine, the parison mold is inverted, and transfer mechanism including a neck ring structure engages the inverted parison and swings it through an arc into an upright position in the blow mold for final shaping.
Production efficiency and economy dictate that the individual sections of the machine be operated in tim~ relation-ship with each other so that the sections will produce the final articles of glassware in sequence, section after section. The same considerations dictate the use of a single feeder structure which feeds the molten gobs of glass to the parison molds in sequence, section after section. With this arrangement, the finished articles of glassware are placed on a common take-away conveyor section after section so that a substantially continuous line or continuous lines of glassware move along the conveyor, generally to a lehr for annealing.
It is the general object of the present invention to provide an I.S. type glassware forming machine wherein each individual section thereof is constructed and arranged: - to provide fcr an intermediate forming of a parison at a station between the parison mold and the final blow mold; to eliminate - 1 - ~

105;~468 the need for an inverting transfer mechanism, and to make either narrow neck or wide mouth glassware of either light weight or heavy construction (that is, thin-wall or thick-wall ware) at high speed.
In keeping with the invention there will be provided a glassware forming machine section having a frame wherein three operating stations are defined in horizontally spaced-apart relationship longitudinally of the frame. The first such station is to include at least one or (in the event of a multiple gob machine operation) more upright top-opening blan~
or pairson molds. The second of such stations includes movable parts to engage and support a parison for further forming after it has been initially formed at the first station. The third such station includes a mold adapted to engage and support the further formed parison for final shaping as an article of glass-ware.
A movable support structure is disposed over the first station in the section and carries a guide chute and a plunger actuator. The guide chute is positioned over the parison mold to guide a gob of molten glass into it and then a plunger is thrust into the mold to form a parison. A transfer mechanism including a carriage is utilized to transport the formed parison to the second station, then to the third station, and then out - of the third station. The carriage includes neck ring parts which engage the parison at the first station and carry it to the second station before return to the first station Pairs of tongs are also carried by the carriage, one pair being utilizcd to move the parison from the second station to the third station before return and a second pair being utilized to transport the finally formed article out of the mold at the third station.
In accordance with the present invention, there is provided a process of forming glassware in a press and blow lOS;~468 technique utilizing at least one upri~ht parison mold in a first station of a forming machine section which also has two additional stations spaced apart longitudinally of the section.
~le process comprises the following steps: placing a gob of molten glass in the parison mold, closing the parts of a neck ring over the parison mold and then thrusting a plunger through the neck ring to form a parison; removing the plunger and mold from the parison to leave the parison suspended by the neck ring, transferring the neck ring to the next adjacent or second of the stations; engaging the upper portion of the parison at the second station to support the same for further forming; re-turning the neck ring to the first station, engaging the upper portion of the further formed parison by first tongs at the second station; transferring the first tongs and further formed parison to the third station; engaging the further formed parison at the third station to support the same for final shaping; re-turning the first tongs to the second station; blowing the pari-son to the final shape of an article of glassware at the third station, engaging the upper portion of the article by second tongs at the third station, transferring the second tongs and suspended article to a point beyond the third station' releasing the article at said point, and returning the second tongs to the third station.
In drawings which illustrate preferred embodiments of the present invention:-FIGURE 1 is a side elevational view of a forming machine section provided in accordance with the present invention;
FIGURE 2 is a larger scale plan view of the machine section, but showing the transfer carriage in an extended rather than in retracted position;

105~468 FIGURE 3 is an irregular vertical longitudinal sec-tional view taken through the machine section, the upper portion of the view being taken along one of the guide rods for the transfer mechanism and the lower portion of the view being taken along the longitudinal center line of the machine section.

- 3a -105;~468 FIGURE 4 is a transverse vertical cross-sectional view taken through the first station of the machine section;
FIGURE 5 is a transverse vertical cross-sectional view taken through the secnnd station of the machine section;
FIGURE 6 is a vertical longitudinal sectional view taken through a blowhead and tong structure such as is supported by the carriage in its retracted position over the second and third stations of the machine section;
FIGURE 7 is another transverse vertical sectional view taken through the second station of the machine section and showing an alternative construction for such station; and FIGURE 8 is a transverse vertical sectional view taken through the third station of the machine section.
As best seen with reference to Figure 1, the individ-ual section of the glassware forming machine has a frame 10within which there are three operating stations or areas pro-vided in spaced-apart relationship along the longitudinal center line of the section, these stations being designated generally as the first station A, a second station B and a third station C. The machine section shown is particularly adapted for "double gob" operation wherein a pair of glassware parisons are initially formed at the station A and then transferred to -the station B for further forming and then transferred finally to the station C for final shaping as articles of glassware such as the bottles G,G shown in Figure 1. When the glassware articles have been finally shaped as by blowing, they are moved out of the machine section onto a deadplate 12 and they are l~S~468 thereafter moved onto a take-away conveyor 14 where they are placed in a line with other similar articles formed by the other individual sections of the forming machine.
The machine section shown utilizes upright blank or parison molds at the station A, and it is particularly adapted to make the articles of glassware in a press and blow technique.
Thus, there is a mechanism indicated generally by the reference number 16 located over the first station A and which includes guide means for introducing gobs of glass to the parison molds at the station A and it also includes plungers for pressing the gobs of glass into parisons at the blank or parison molds.
Still referring to Figure 1 for an understanding of the general arrangement of the major elements, it will be seen that a transfer mechanism is utilized which includes a carriage indicated generally at 18 which is supported on a pair of horizontally disposed guide rods 20,20 extending longitudinally of the machine section 10 over and straddling the stations A,B
and C and extending onwardly over the deadplate 12. The outer ends of the rods are supported in a bracket 22 secured over the deadplate 12 on the section frame 10, and the inner end portions of the said guide rods are extended through cylinders 24,24 mounted on the inner end portion of the machine section frame 10 and extending inwardly beyond said frame. Each such cylinder 24 comprises a part of a reciprocable fluld motor which also includes a piston 26 (Figure 3), the said piston being annular - and surrounding an associated rod 20 and having an outwardly projecting extension 28 which is connected with the carriage 18.
Thus, as the annular pistons 26,26 are reciprocated within the cylinders 24,24, the carriage 18 is reciprocated between a retracted position shown in Figure 1 and an extended position shown in Figures 2 and 3.
The carriage 18 supports a neck ring mechanism 30 over the parison molds at the station A in its retracted posi-tion, and in such position it supports a first combined blowhead and tong mechanism 32 over the second station B, and it also supports a similar combined blowhead and tong mechanism 34 over the third station C, all as shown in Figure 1. In the extended position of the carriage 18, as shown in Figures 2 and 3, the neck ring mechanism 30 is located over the second station B, the first blowhead and tong mechanism 32 is disposed over the third station C, and the second blowhead and tong mechanism 34 is lo-cated over the deadplate 12.
Turning now to the structure and operations at thefirst station A, attention is directed to the gob guide and plunger mechanism 16 shown in Figures 1 and 4.
Since the machine section is adapted for double gob operation, there are two gob guide chutes 36,36 provided for guiding molten gobs of ~lass into the two blank or parison molds to be described, and there are two plungers 38,38 provided to be thrust into the molds by a plunger actuator 40. The parison molds are rather closely spaced along the longitudinal center line of the section frame 10, and this dictates that the chutes 36,36 and the plungers 38,38 be similarly spaced so as to be in registry with the top openings of the cavities in the parison molds, selectively. That is, the chutes 36,36 are to be placed over the molds to guide the gobs into them, and then they are moved aside so that the plungers 38,38 will be disposed over the molds. This is accomplished by mounting the chutes and the plunger actuator 40 on a slide 42 which is movable transversely relative to the section frame 10 on a fixed frame structure 44 located over the section frame. A reversible motor 46, which 30 preferably comprises a cylinder and piston, is provided to move ~ /,'~c the su~e~ 42 transversely of the machine section, as indicated by the double head arrow 48 at Figure 4, in timed relationship 10.~
to the operation of the other elements in the machine section and in relationship to the operation of other sections in the compo-site machine Thus, either the plungers or the guide chutes are located over the parison molds as can be seen in Figure 4 where-in the plungers are shown to be in position over the molds.
The reversible fluid motor 46 is preferably air operated, and the assembly 16 carries an accumulator 50 for collec-ting air under pressure for such motor operation, the accumulator 50 being connected to a source of air as by a conduit 52. The plunger actuator 40 also preferably comprises an air operator cylinder and piston, the assembly 16 also including an accumulator 54 for the plunger actuator, and the accumulator 54 is connected to a source of air under pressure as by a conduit 56. In the preferred form, there is only one cylinder and piston actuator 40 utilized, the piston being connected at the bottom of the cylinder to the pair of plungers 38,38 Each blank mold construction at the station A in the form shown in Figure 4 includes a one-piece body mold element 58 having a relatively wide open top cavity, a multi-part inter-mediate mold section 60 and a multi-part neck ring mold 62 which is a part of the neck ring structure 30. The open top body mold element 58 is movab~ vertically on the end of a piston 64 which is reciprocable in a cylinder 66. The body mold 58 is elevated by the piston 64 to the position shown in Figure 4 to receive a gob of molten glass from one of the chutes 36, and it remains in the elevated position until the parison has been formed. Then, the body mold is moved downwardly to be stripped off the formed parison. In the preferred construction, a single piston 64 operating in a single cylinder 66 will be employed to raise and lower the body molds of the side-by-side blank mold constructions, and the cylinder 66 is preferably adjustably supported in the section frame 10 so that the extended and re-lOS;~468 tracted positions of the body mold elements can be adjusted forthe making of parisons of different shape and size~ The means effecting such vertical adjustment comprises a manually operable jack screw 68 shown in Figure 1 but eliminated from Figure 4 for convenience.
As seen in Figure 4, the separable parts of the neck ring 62 are mounted on respective racks 76,76 which are slidable in the carriage 18 toward and away from each other and thus transversely of the section frame 10. The racks are caused to slide toward and away from each other by a pair of pinions 78,78 which are keyed to the respective guide rods 20, 20 but are slid-able along the guide rods with the carriage 18. Thus, by simul-taneously rotating the guide rods 20,20 in opposite directions, the racks 76,76 are caused to move either toward or away from each other and thus to close or open the neck ring 62.
The preferred reversible motor means for rotating the guide rods to open and close the neck rings comprises a pair of cylinders and pistons, there being one such cylinder 180 and piston 182 (Figure 3) associated with each carriage cylinder 24 and guide rod 20. Each piston 182 is so constructed that as it is moved within its associated cylinder 180 in one direction it causes rotation of a piston rod or shaft 184 in one direction, and as the piston experiences reverse movement the rod 184 is rotated in the opposite direction. A gear 186 is supported on a projecting end of the shaft 184 in mesh with a gear 188 on the projecting end of the associated guide rod 20. Thus, by revers-ing the direction of movement of the piston 182 in its cylinder 180, the associated guide rod 20 is caused to rotate in one and an opposite direction. This rotation of the guide rod, as pre-~iously mentioned, effects reciprocation of a neck ring rack 76 with which it is associated through a pinion 78.
A neck ring 62 is essential in making all articles of 105~46~

glassware, but the intermediate mold 60 is needed only when mak-ing relatively narrow neck articles. When relatively wide mouth glassware articles are to be made, the neck ring 62 can be locat-ed immediately above the body mold 58 and in engagement there-with. The neck ring 62 and the body mold ~8 are then held to-gether during the pressing process by a clamp of dovetail constr-uction which is actuated by means similar to the means described below for moving the intermediate molds 60, As mentioned earlier, the parts of the neck ring 62 are moved transversely of the machine frame 10 to engage each other and define the neck ring and in so doing they will grip the upper portion or "finish" of the parison when formed by the plunger. The parts of the intermediate mold 60 also move trans-versely of the frame 10 into and out of engagement and when engaged they form a part of the parison mold cavity which is relatively narrow at the top to match the neck ring opening and relatively wide at the bottom to match the top of the body mold cavity. It will be seen in Figure 4 that the parts of the intermediate mold 60 are so constructed and arranged as to engage the lower portion of the neck ring parts 62 and the upper portion of the body mold 58 to clamp them together.
In the preferred construction, the intermediate mold parts are moved into and out of engagement by a reversible motor comprising a cylinder 70 and piston 72 (Figure 4). The cylinder is located within the section frame 10 alongside the body mold cylinder 66 as shown in Figure 1, but for convenience of illus-tration, it is shown in Figure 4 below the cylinder 66. The fluid motor piston 72 is connected by a lin~age structure 74 which is arranged to effect horizontal movement of the intermediate mold parts responsive to vertical movement of the piston 72 in the cylinder 70.

The construction of the machine section at the station - _ 9 _ ~053468 B is shown in Figure 5, and it will be noted tha-t two of the principal elements at this station comprise the halves 80,80 of a separable preliminary blow mold. That is, there are two such blow mold halves provided at the station B for each parison P
formed at the station A and carried by the neck ring structure and carriage 18 to the station B. Thus, in the double gob section disclosed there will be two preliminary blow molds, each having the parts 80,80 which are movable transversely of the section frame 10 into engagement with each other to define a cavity for the parison P and away from each other to release the parison after it has been preliminarily shaped by blowing. The mold halves for the two molds are reciprocated toward a.nd away from each other by a pair of carriers 82,82 which are operated for sliding movement by a cylinder 84 and piston 86, the piston being connect-ed to the carriers by the linkages 88,88 (Figure ~).
The mold halves 80,80 for each parison P in addition to engaging each other to form a mold cavity, also engage a vertically adjustable bottom plate 90 which defines the bottom of the cavity. The mold halves are engaged with each other and with the bottom plate to define the cavities immediately after the parisons P,P have been transferred to the station B by the neck ring structure 30. It will be observed that the mold halves engage the parisons below the finish portion which is engaged by the neck rings, and immediately after they have engaged the parisons, the neck rings are opened and the neck ring structure 30 is returned to the station A by the carriage 18 with the neck rings still open. This leaves the upper portion of the parisons exposed for operation of the combined blowhead and tong structure 32 at the station B as will now be described wi-th reference to Figures 5 and 6.
As previously mentioned, the structure 32 is support-ed on the reciprocable carriage 18. An important element of the structure 32 is a cylinder 92 having a vertically reciprocabl`e piston 94 which carries and thus raises and lowers a blowhead 96 over the parisons P,P at the station B as best shown in Figure 6. The piston 94 and thus the blowhead 96 is biased upwardly by a compression spring 98, but it is moved downwardly in opposition to the force of the spring 98 when air under pressure is intro-duced above the piston. When moved downwardly to the position shown in Figure 6, the blowhead 96 carries the outwardly flared ends 100,100 of a pair of air lines 102 into contact with the upper ends or finish of the respective parisons P,P. When the open ends of the parisons are so engaged, air under pressure is introduced to them through the air lines or conduits 102,102 to blow the parisons into a preliminary shape or form as defined by the cavities in the preliminary blow molds.
A second piston 104 is carried by the blowhead 96 for vertical reciprocation, and it is this piston which operates the tong structure forming a part of the composite structure 32 More specifically, the piston 104 is vertically reciprocable within a portion of the blowhead 96 and it is normally biased 20 upwardly by a compression spring 106 toward the first or main blowhead piston 94. A tubular extension 108 on the piston 104 projects through the piston 94 and provides an entry for air under pressure to be introduced between the first piston 94 and the second piston 104 whereby to move the second piston 104 downwardly in opposition to the force of the spring 106.
A downwardly projecting extension or rod 110 is connec-ted by linkages 112,112 to the tongs 114,114 of a front pair associated with the front mold at the station B and with the tongs 116,116 of a pair associated with the rear mold at the station B. As will be seen in Figure 6, -the tongs slide substan-tially horizontally, the tongs in each pair being reciprocable toward and away from each other longitudinally of the section iOS346~

frame to engage an associated parison P below its finish and above the mold halves 80,80 of the associated preliminary blow mold. The operating linkage arrangement is such that the left-hand tong 114 and the left-hand tong 116 as viewed in Figure 6 move together and the right-hand tong 114 and right-hand tong 116 also move together.
The blowhead and tong assembly 32 is operated at the station B after the carriage 18 has been extended and retracted, thus after parisons have been delivered by the neck rings and engaged by the preliminary blow molds and the neck rings have been returned to the station A. That is, after the mold halves 80,80 have closed upon the initially formed parisons and the neck rings have opened and been retracted, the blowhead 96 is lowered into the position shown in Figure 6 by introducing air under pres-sure over the piston 94. When the blowhead has been lowered to engage the flared ends 100,100 of the conduits 102,102 with the Parisons P,P, air under pressure is introduced through the said conduits to blow the parisons into the shape defined by the closed mold halves 80,80 and the bottom plate 90. Then, after a prede-termined period of time sufficient for the preliminary formingof the parison P to fill the preliminary blow mold cavity, blow-ing into the parison through the lines 102,102 is cut off and at substantially the same time or in very close sequence, the mold halves 80,80 are opened and the tongs 114 and 116 are closed on the respective parisons P,P. The parisons will rest upon the bottom plates 90 while the tongs are closed and the tongs are so closed by introducing air under pressure to the top of the second piston 104. When the pari.sons have been engaged by the tongs and the mold halves 80,80 are separated, the parisons can be lifted slightly off the bottom plates 90 by a slight reduction in the pressure over the piston 94 permitting the blowhead to be elevated slightly for transfer with the carriage 18 to the lOS3468 station C~
When the blowhead and tong structure 32 reaches the station C, the halves of the final blow molds at that station will close upon the further formed parisons and then the tong pairs 114 and 116 are opened and the blowhead 96 is elevated before retraction of the carriage which will place the structure 32 back at the station B.
An important advantage resides in the further forming of the parisons P,P at the station B. That is, the further form-ing provides for better distribution of the glass, particularlyin the manufacture of relatively light-weight articles of glass-ware.
Part of the desirable glass distribution occurs as a result of a re-heating. That is, when the initially formed parison is released by the blank mold structure at the station A, it no longer suffers heat loss to that blank mold structure and it starts to re-heat and stretch while being carried by the neck ring structure 30 and the carriage 18 to the station B. The mold halves 80,80 and the bottom plate 90 at the station B are made of a material which will extract a minimum amount of heat from the initially formed parison as it is being further formed by the preliminary blowing.
In the making of some articles of glassware, particu-larly long narrow-neck articles, it may be more desirable to permit further re-heating and stretching of the parisons at the station B rather than to blow them into a preliminary shape. The alternative structure used for re-heating at the station B is shown in Figure 7, and it will be seen that such alternative structure principally involves the substitution of opposed pari-son engaging fingers 118,118 for the preliminary blow mold halves 80,80 and the substitution of a patter plate 120 for the shaped bottom plate 90. The fingers 118,118 are supported on tne hori-105~468 zontally reciprocable carriers 82,82 and merely engage the pari-sons on opposite sides thereof below the finish to support them in a suspended condition and thus to permit them to elongate or stretch during re-heat. The amount of stretch is limited by the patter plate 120 which also provides some support for the parisons as they are engaged by the tongs. When the re~heat fingers 118,118 are employed, the tongs pairs are preferably arranged so that they will engage the parisons in positions spaced around the parisons from the fingers, thus permitting tong engage-ment of the parisons before the fingers 118,118 are disengaged.
In this alternative construction, the blow head forming a part of the assembly 32 can be eliminated if desired. If it is not eliminated, it is not used in blowing the parisons at -the station B, only the tong structure need be provided.
Except for the configuration of the final blow mold halves, the structure at the final shaping or final blow mold station ~ as shown in Figure 8 is substantially the same as that used for preliminary blowing at the station B as shown in Figure 5, and the blowhead and tong assembly 34 is substantially the same as the blowhead and tong assembly 32. Therefore, in order to avoid unnecessary description, the elements at the station C
shown in Figure 8 having substantially the same construction and operation as those shown in Figure 5 are designated by the same reference numerals but with the suffix "a" added thereto.
The final blow mold halves 122,122 used at the station C are, of course, different from the mold halves 80,80 used at the station B because the cavity defined in station C is to pro-vide the final shape for the article of glassware being formed.
Further, since all of the desired re-heating of the parison will have taken place during transfer from the station A to the station B, at the station B, and during transfer to the station C, the final mold halves 122,122 can be made of a material which ~OS~468 will extract heat from the final article of glassware as it is blown to shape, It is desirable to extract heat from the glass-ware in its final shape, and to this end cooling passages such as indicated at 124 can be utilized in the mold halves 122 and supplied a stream of cooling air from conduit means indicated generally at 126. If desired, additional passages can be pro-vided in the mold halves 122 for connection with a vacuum chamber to assist in the final shaping of the ware by reducing the pres-sure within the cavity and outside the parison as compared to that in-ternally thereof. The bottom plate 90a, can also be pro-vided with vacuum passages When the two parisons P,P at the final station C have been fully blown to the final shape of the article of glassware G,G and the mold halves 122,122 have remained closed for the necessary period of in-mold cooling, the mold halves are opened and the tong pairs 114a and 116a of the assembly 34 engage the finished articles to transfer them with carriage 18 to a position on the deadplate 12 where they are released by opening the said tong pairs. While not shown, means can be provided for spraying or otherwise treating the articles G,G during movement from the station C to the deadplate 12 so that they will be made more tough and durable and thus capable of avoiding bottom checking and deformation due to their own weight.
After the articles have resided on the deadplate 12, and been further cooled, they are moved onto the conveyor 14 by mechanism (not shown) operated in a timed relationship with the operation of all of the other mechanisms associated with the individual machine section shown.
As a further additional optional feature, the mold halves 80 employed at the station B can also be provided with passages for connection with a vacuum chamber to assist in the further forming of the parison at station B. In another alter-105~468 native embodiment of the invention the blowheads at both stations B and C are omitted and a gas pressure difference between the inside and the outside of the parison at station B and the inside and outside of the further formed parison at station C is created by evacuating through passages in the intermediate and final molds.
The operation of the individual section will now be described, but ss a preliminary thereto it is to be understood that this is just one of a plurality of sections operated in timed relationship to each other in a composite machine structure.
In such machine structure or arrangement, a feeder mechanism will be provided to feed two gobs of glass to the sections in timed sequence and relationship and the finished articles of glassware G,G will be produced by the sections in the same timed relation-ship for ultimate movement onto the cnnveyor in a line or lines of glassware articles produced by the several sections of the machine.
OPERATION
It is believed that the step-by-step description of the press and blow process carried on by the machine section will be readily understood by reference to the following chart:
Station A Station B Station C Deadplate 1. Body molds up Molds close ~Molds closel
2. Gobs in I Neck Rings lTongs open J Tongs open
3~ Plungers Carriage replace retracts chutes
4. Neck rings Blowhead on Blowhead on 3o close Interm molds close 6 Plungers down ~05~468 Station A Station B Station C Deadplate 7. Plungers up Blowhead off Blowhead off 8. Interm molds Molds open Molds open open, Chutes replace plungers 9. Body molds Tongs close Tongs close __ down , 10 Carriage extends 0 Sequential Functions - Must Follow rl Substantially Simultaneous Functions - Within ~ about ,2 seconds In describing operation with reference to the fore-going chart, it is to be assumed that the machine section has been in operation and that the carriage 18 has just been extended to transfer a pair of newly formed parisons from the station A
to the station B, to transfer a pair of further formed parisons from the station B to the station C, and to transfer two fully formed articles of glassware G,G from the station C to the dead-plate 12. It is at this point in time that the one piece body molds 58 are moved up to the position shown in Figure 4 by the piston 64 so as to be ready to receive gobs of molten glass from the chutes 36,36 which have been previously moved into position over the said molds at the station A by operation of the revers-ible fluid motor 46. At about the same point in time, the mold halves 80,80 (Figure ~) are closed on the parisons P,P at the station B and the neck ring parts 62,62 are opened at the station B. It is important that the neck ring parts open when the mold parts close or very shortly thereafter. At the same time, the final mold halves 122,122 close upon the further formed parisons at the station C and the tong pairs 114 and 116 ~f the assembly 32 open at the station C. Also at this time, the tong pairs 114a and 116a of the assembly 34 open at the deadplate 12, :1~5;~6~
The next step in operation at the station A is for the gobs of molten glass to be dropped into the open tops of the body molds 58. No additional step takes place at the stations B and C or at the deadplate 12, the molds having been closed at the station B and the neck rings opened, the molds having been closed at the station C and the tongs opened and the tongs having been opened at the deadplate 12, After the gobs have been dropped into the one piece body molds at the station A, the reversible motor 46 is operated to shift the plungers 38,38 into position over the body molds, and while this is going on, the carriage 18 is retracted to re-turn the assembly 34 to station C, the assembly 32 to station B, and the neck ring structure 30 to station A, The fourth step in the operation at station A then takes place and this constitutes the closing of the neck ring parts 62,62. At substantially the same point in time, the blow-head 96 is lowered and starts the preliminary blowing of the initially formed parisons at the station B, and the blowhead 96a is lowered and starts the blowing of the further formed parisons into final shape at the station C.
The fifth step in operation at the station A then takes place, this being the closing of the intermediate mold parts 60,60 to clamp the neck ring parts 62,62 and the body molds 58, into alignment to receive the plungers. No additional step takes place at the other stations or at the deadplate, the pre-liminary blowing being permitted to continue at the station B, the final blowing being permitted to continue at the station C, and cooling of the glassware articles G,G being permitted to continue at the deadplate 12.
While this blowing at stations B and C and cooling at the deadplate continues, the plungers 38,38 are -thrust into the parison molds at the station A this being accomplished by the - lOS~468 plunger actuator 40 and comprising the sixth step of operation at the station A
After a sufficient dwell, to assure proper distribu-tion of the molten glass around the plungers in the parison or blank molds, the plungers are again elevated, and this is the seventh step occurring at station A, At about the same time, blowing is stopped at the stations B and C, the molds at said stations are opened and the tongs are closed at the stations B and C by the assemblies 32 and 34, respectively.
Then, the parts 60,60 of the intermediate molds at the station A are opened, this being the eighth step, and at about the same time the reversible motor 46 is operated to move the chutes into position over the blank molds in place of the plungers. Nothing further takes place at the stations B and C, and at the deadplate, the parisons held by the tongs at the station B being permitted to re-heat, the final articles of glass-ware being held by the tongs at the station C being permitted to initially cool or to be treated, and the final articles of glass-ware at the deadplate being permitted to continue cooling.
The ninth step in operation at the station A involves movement of the one-piece body molds 58 downwardly by the piston 64 in preparation for extension of the carriage and movement of the initially formed parisons by the neck rings. At about this point in time it is desirable to move the cooled articles of glassware off the deadplate and onto the conveyor 14 by the mechanism usually operated for such purposes.
Then, the final step, step 10, in the process takes place, this being extension of the carriage 18 by the reversible fluid mo-tors comprising the cylinders 24,24 and annular pistons 26,26. This moves the newly formed parisons to station B, the further formed parisons to station C, and two nelNly formed articles of glassware to the deadplate 12 and all structure is lOS~468 restored to the condition for -the start of the new cycle with step 1 thereof.
It will thus be seen from the above chart that the machine timing control is by a combination of independent mechan-ism control and sequence timing. Those mechanism motions which, if they were to malfunction, would cause damage or a serious jam of the machine are sequence timed such that there is interlock and fail-safe provisions should any of these mechanisms not com-plete its full operational movement.
As examples of mechanisms where fail-safe provisions should be included, downward movement of the plungers 38,38 should only be permitted when the lateral motion of the plungers under control of the reversible motor 46 has been precisely com-pleted; the carriage 18 should not be permitted.to extend unless the plungers 38,38 have been fully elevated: and the one-piece body molds ~8 should not be moved downwardly in step 9 of the operation unless the intermediate molds ~ have been fully opened.
The aforedescribed glassware forming machine appara-tus and process provides for the manufacture of high quality narrow neck or wide mouth articles of glassware utilizing a press and blow technique at higher rates of production than could be accomplished by the more conventional apparatus such as sho~n in U.S. Patent 1,911,119. In press and blow glassware manufacture, the -time taken is largely dictated by the time needed for blow-ing and initial cooling in the two steps conventionally used.
That is, little tirne is needed for the pressing operation which constitutes the first step, but the whole process must be slowed down for the blowing.
In keeping with this invention wherein the blowing is carried on as a two stage operation, or as a re-heat stage and a final blowing stage, and wherein three operating stations are lOS;~468 provided in the machine section, the time of operation at each station can be matched to that needed for the pressin~ at the first station. This provides for the production of glassware at the much higher desired rate.
The process and apparatus in accordance with this invention wherein the glass article is formed from the parison in two stages provides particular advantages in the manufacture of lightweight glassware where a longer re-hea-t time is required to enable the parison to stretch to produce the thin glass.
Also, a process and apparatus in accordance with the present invention in which the glass article is formed from the parison by two blowing stages at the second and third stations respectively provides for adjustment of the re-heat time between the formation of the parison by pressing at the first station and -the intermeidate blow at the second station, the time for which the intermediate blowing is performed at the second station, and the re-heat time between the termination of the intermediate blowing at the second station and the commencement of the final blowing stage at the third station By these adjustments, and also by choice of the shape, material and temperature of the intermediate blow mold formed by the mold halves 80,80 at the second station, the re-heat efficiency can be enhanced and the distribution of the glass in the article formed at the final blow mold in the third station can be more accurately controlled than was possible in prior art processes.
Apparatus in accordance with the present invention may, however, be utilized to perform a process similar to the two stage process which is currently performed in a standard I.S.
machine by the press and blow technique to manufacture glass articles of heavy construction. In such circumstances the third station in the apparatus of the present invention is utilized for a process step subsequent to the final formation of the glass i~S;~468 article. This extra process step may be an extra cooling step preparatory to the glass article being placed on the conventional conveyor or the conventional conveyor deadplate, the glass article being cooled in this additional step whilst suspended on fingers similar to the fingers 118 shown in Figure 7 or whilst it is placed on a special deadplate. Alternatively, the third station in the apparatus of the present invention may be used for an additional treatment of the glass article, for example for spray coating of the glass article from underneath and from the sides to that a protective coating is applied to the glass article, and particularly to its base, before it is brought into contact with any other material

Claims (3)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:-
1. A process of forming glassware in a press and blow technique utilizing at least one upright parison mold in a first station of a forming machine section which also has two additional stations spaced apart longitudinally of the section, the said process comprising the steps of placing a gob of molten glass in the parison mold, closing the parts of a neck ring over said parison mold and then thrusting a plunger through the neck ring to form a parison, removing the plunger and mold from the parison to leave the parison suspended by the neck ring, transferring the neck ring to the next adjacent or second of said stations, engaging the upper portion of the parison at said second station to support the same for further forming, returning said neck ring to the first station, engaging the upper portion of the further formed parison by first tongs at said second station, transferring the first tongs and further formed parison to the third station, engaging the further formed pari-son at the third station to support the same for final shaping, returning the first tongs to the second station, blowing the parison to the final shape of an article of glassware at the third station, engaging the upper portion of the article by second tongs at said third station, transferring the second tongs and suspended article to a point beyond said third station, releasing said article at said point, and returning the second tongs to said third station.
2. The process set forth in claim 1, wherein the movements of the neck ring between said first and second stations, the first tongs between said second and third stations, and the second tongs between said third station and said point are all substantially horizontal and substantially along the longitudinal center line of the machine section.
3. The process defined in claim 2, wherein the steps thereof are performed cyclically and repetitively and the trans-fer movements of the neck ring, the first and second tongs from the first, second and third stations, respectively, occur sub-stantially simultaneously, and wherein their return movements to said stations also occur substantially simultaneously, whereby parisons may be formed and further formed at the same time at all three stations.
CA296,095A 1973-11-23 1978-01-31 Individual section high speed glassware forming machine Expired CA1053468A (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GB54389/73A GB1491859A (en) 1973-11-23 1973-11-23 Glassware forming machines
CA213,011A CA1028501A (en) 1973-11-23 1974-11-05 Individual section high speed glassware forming machine

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