Title of Invention

I.S. MACHINE

Abstract An Individual Section machine including at least one section having a blank station and a blow station comprising a section frame having a top wall, an invert and neck ring mechanism supported on the top wall of said section frame and including a pair of opposed neck ring holder arms (13), a cylinder (24A, 24B) for supporting said opposed pair of neck ring holder arms for displacement from a closed position to an open position, a support structure (26) mounted on said section frame for supporting said cylinder for rotation between a first orientation whereat said pair of neck ring holder arms are horizontally located at the blank station to a second orientation whereat said pair of neck ring holder arms are horizontally located at the blow station, a drive (22, 18, 17, 16) for rotating said cylinder from said first orientation towards said second orientation to a selected orientation establishing a selected acute angle between said selected orientation and said second orientation, and a displacement mechanism (27, 31) for displacing said neck ring holder arms to the open position, said section frame including a downwardly extending cullet chute (56) having a top opening defined in said top wall, said top opening extending from a location beneath said pivotally mounted cylinder towards said blow station, a mold open and close mechanism (32, 34, 35) supported on said section frame including an opposed pair of blow mold support mechanisms and displacement means including a motor operable to displace said opposed pair of mold support mechanisms between open and closed positions, and a control for operating in a preheat blank molds mode including means (73) for maintaining the blow molds at the open position, means (78) for cyclically operating said drive means to rotate said cylinder to displace sequentially formed parisons to said selected orientation, and means (80, 82) for operating said displacement mechanism (27, 31) to displace said neck ring holder arms from the closed position to the open position when said cylinder has been rotated to locate a parison at the selected orientation
Full Text FORM 2
THE PATENTS ACT 1970
[39 OF 1970]
COMPLETE SPECIFICATION
[See Section 10]
'l.S. MACHINE"
full is machine with fixed parison disposalnchute
"AN INDIVDUAL SECTION MACHINE"
EMHART GLASS S.A., a Swiss corporation having a place of business at Gewerbestrasse 11, CH-6330 Cham, Switzerland,
The following specification particularly describes the nature of the invention and the manner in which it is to be performed:-




ORIGINAL

GRANTED
22-6-2005

SPECIFICATION
I.S. MACHINE
The present invention relates to I.S. (individ¬ual section) machines which transform gobs of molten glass into bottles in a two step process.
BACKGROUND OF THE INVENTION
A state of the art I.S. machine is disclosed in U.S. Patents No. 5,902,320. Such an I.S. (indiv¬idual section) machine has a plurality.of identical sections (a section frame in which and on which are mounted a number of section mechanisms) each of which has a blank station which receives one or more gobs of molten glass and forms them into parisons having a threaded opening at the bottom (the finish) and a blow station which receives the parisons and forms them into bottles standing upright with the finish at the top.
An invert and neck ring holder mechanism which includes an opposed pair of arms, rotatable about an invert axis, carries the parisons from the blank station to the blow station, inverting the parisons from a finish down to a finish up orientation in the process.
The blank station includes opposed pairs of blankmolds and the blow station includes opposed pairs of blowmolds. The blankmolds and the blowmolds are supported on inserts carried by opposed carriers, each of which may be advanced by a servo motor or the like between open (separated) and closed positions.
During machine start up, the parisons formed in the blank station are not fit for further processing in the blow molds and must be removed from the machine. An operator conventionally must grab the

parisons and remove them from the section. This puts the operator face to face with molten glass parisons until the blank side has heated up sufficiently to form parisons which can be formed into bottles at the blow station. This is a very undesirable period of time for the operator.
In the early 80's a prototype variation of an I.S. machine was built which had a rotating blow mold assembly which had two blow mold stations which sequentially received parisons from a single blank mold. This concept is shown in U.S. Patent No. 4,343,644. The invert mechanism for that machine is disclosed in U.S. Patent No. 4,612,032. In that machine parisons could be dumped by positioning the
invert at a 90° orientation and dropping the parisons into a parison catching device which is lowered into position extending partially over the invert and which discharges the parisons into a cullet chute having an opening defined in the top of the section (see U.S. Patent No. 4,612,032) large enough to accept vertically oriented parisons.
OBJECT OF THE INVENTION
It is an object of the present invention to provide an improved system for removing parisons from an I.S. machine.

According to the present invention there is provided an Individual Section
machine including at least one section having a blank station and a blow
station comprising
a section frame having a top wall,
an invert and neck ring mechanism supported on the top wall of said section
frame and including
a pair of opposed neck ring holder arms,
a cylinder for supporting said opposed pair of neck ring holder arms for
displacement from a closed position to an open position,
a support structure mounted on said section frame for supporting said cylinder
for rotation between a first orientation whereat said pair of neck ring holder
arms are horizontally located at the blank station to a second orientation
whereat said pair of neck ring holder arms are horizontally located at the blow
station,
a drive for rotating said cylinder from said first orientation towards said second
orientation to a selected orientation establishing a selected acute angle between
said selected orientation and said second orientation, and
a displacement mechanism for displacing said neck ring holder arms to the
open position,
said section frame including a downwardly extending cullet chute having a top
opening defined in said top wall, said top opening extending from a location
beneath said pivotally mounted cylinder towards said blow station,
a mold open and close mechanism supported on said section frame including
an opposed pair of blow mold support mechanisms and displacement means
including a motor operable to displace said opposed pair of mold support
mechanisms between open and closed positipns, and

a control for operating in a preheat blank molds mode including
means for maintaining the blow molds at the open position,
means for cyclically operating said drive means to rotate said cylinder to
displace sequentially formed parisons to said selected orientation, and
means for operating said displacement mechanism to displace said neck ring .
holder arms from the closed position to the open position when said cylinder
has been rotated to locate a parison at the selected orientation.
BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS
Referring to the drawings:
Figure 1 is an oblique view of an invert and neck ring holder mechanism mounted on the top wall of the section frame of one section of an I.S. machine,

Figure 2 is a view taken at 2-2 of Figure 1;
Figure 3 is a schematic top view of one section of an I.S. machine,-
Figure 4 is an elevational schematic view looking from the invert axis illustrated in Figure 3, toward the blow molds showing a gob deflector located in position between open blow molds,-
Figure 5 is a schematic view taken from lines 5-5 of Figure 4 and additionally showing a formed parison held by the arms of the invert and neck ring holder mechanism shown in Figure 1, located at a selected angle above the gob deflector shown in Figure 4; and
Figure 6 is a control diagram illustrating the operation of the invert and neck ring holder mechanism during the preheat blank molds cycle.
BRIEF DESCRIPTION OF THE PREFERRED EMBODIMENT
An invert and neck ring holder mechanism 10 (Figure 1) is mounted on the top surface 12 of a box or frame of a section of an I.S. (individual section) machine which includes one or a plurality (usually 6, 8, 10, or 12) of sections. This mechanism has a pair of opposed neck ring arms 13 which support opposed pairs of neck ring halves 14 which close the bottom of the blankmolds (not shown) when the mold halves are closed. The neck ring halves define the finish (threads) of a parison made in the blank molds which will become the finish of the formed bottles.
The opposed neck ring holder arms 13 can be displaced from a separated position to the shown closed position by suitable horizontally oriented pneumatic cylinders 24A,24B which are suitably supported between opposed spaced vertical supports

or brackets 26. These cylinders each include a cylindrical outer housing 28A,28B and these outer housings are telescopically interconnected and axially displaceable along a cylindrical core 33
(Fig.2). Each neck ring holder arm has a bracket portion 35 which is removably secured to a corres¬ponding arm support 37 which is part of the corresponding outer housing. The outer housings are spring biased to the closed position (only one spring 29 is shown) and they are pneumatically forced to the open position by compressed air supplied via a suitable valve 27 through the axially extending air conduit 31 in the cylindrical core 33.
When the neck ring holder arms are to be opened an open signal will be received by the valve to open line pressure to the core and when the arms are to be closed the valve will receive a close signal (no open signal) . Rotation of the cylindrical core and hence the neck ring arms, is effected by interconnecting the output of a servomotor 16 to the core. In the preferred embodiment this output is a drive shaft in the form of a worm which is located within a worm housing 18 and which is coupled to the output of the motor via a coupling device located in the coupling device housing 19 which converts the rotary output of the motor to linear displacement. The worm rotates a worm gear 20 (fig.2) which is supported within a suitable worm gear housing 22. The vertical worm housing 18 and the invert brackets 26 are secured to the top surface 12 of the section frame. In this case the motor (rack) and gear are tangentially related. Alternately, the motor and gear can be coaxial with a suitable coupling therebetween such as shown in the '068 patent.
Rotation of the core 33 180° will accordingly rotate

the neck ring holder arms 13 180° from the blank-station to the blow station.
Each section has a blank station 30 (Fig. 30) including a mold opening and closing mechanism defined by an opposed pair of mold support mechanisms 32 which carry blankmold halves 35 and which are displaceable from an open position to a closed position by displacement mechanisms 34 located behind the mold support mechanisms. Each displacement mechanism is driven by a servo motor 37. Each section also has a blow station 36 including a mold opening and closing mechanism defined by an opposed pair of mold support mechanisms 32 which carry blowmold halves 38. The blow station mold support mechanisms are displace¬able from an open position to a closed position by the same displacement mechanisms 34 located behind the blow station mold support mechanisms and each of these displacement mechanisms is driven by a servo motor 37. U.S. Patent No. 5,895,513, discloses a state of the art mold open and close mechanism.
Figure 4 is a view from the invert towards the blow station showing the blow molds fully open and a deflector device including a deflector 50 and a pair of arms 52 secured to the deflector which rest on the top of the opposed mold support mechanisms 32. The deflector is sufficiently long so that it can be situated with the bottom of the deflector 54 extending into a cullet chute 56 defined in the section frame with the opening 58 of the cullet chute being located in the top wall of the section frame. If the rotation of the neck ring holder arms 13, from the blank station to the blow station, is stopped at the blow station with the neck ring
holder arms at an angle which locates the held

parisons 60 above the deflector 50, and the neck ring holder arms 13 are opened, the parisons will drop onto the deflector and be guided into the cullet chute 56.
Figure 6 illustrates the control algorithm. During section start up, the blank molds will be cold and as a result, the formed parisons can not be properly blown into bottles in the blow molds. The section will be operated by the control 70 in the Preheat Blank Molds Mode 72. During this mode, while the blank station is functioning to periodically form parisons, the control will Maintain Blow Molds At Open Position 74. When it is the Time (in the cycle) To Rotate Neck Ring Arms To Blow Station 74, the control will Rotate Neck Ring
Arms To @° 78. When the control determines that
Neck Ring Arms Are At 0° 80, the control will Open
Neck Ring Arms 82 to release the parisons. Finally
when the control determines that the Neck Ring Arms
Are Open 84 the control will Close Neck Ring Arms
And Return 86 (rotated) back to the blank station
for the next cycle.

Claim:
An Individual Section machine including at least one section having a blank station and a blow station comprising a section frame having a top wall,
an invert and neck ring mechanism supported on the top wall of said
section frame and including
a pair of opposed neck ring holder arms (13),
a cylinder (24A, 24B) for supporting said opposed pair of neck ring holder arms for displacement from a closed position to an open position,
a support structure (26) mounted on said section frame for supporting said cylinder for rotation between a first orientation whereat said pair of neck ring holder arms are horizontally located at the blank station to a second orientation whereat said pair of neck ring holder arms are horizontally located at the blow station,
a drive (22, 18, 17, 16) for rotating said cylinder from said first orientation towards said second orientation to a selected orientation establishing a selected acute angle between said selected orientation and said second orientation, and

a displacement mechanism (27, 31) for displacing said neck ring holder arms to the open position,
said section frame including a downwardly extending cullet chute (56) having a top opening defined in said top wall, said top opening extending from a location beneath said pivotally mounted cylinder towards said blow station,
a mold open and close mechanism (32, 34, 35) supported on said section frame including an opposed pair of blow mold support mechanisms and displacement means including a motor operable to displace said opposed pair of mold support mechanisms between open and closed positions, and
a control for operating in a preheat blank molds mode including
means (73) for maintaining the blow molds at the open position,
means (78) for cyclically operating said drive means to rotate said cylinder to displace sequentially formed parisons to said selected orientation, and
means (80, 82) for operating said displacement mechanism (27, 31) to displace said neck ring holder arms from the closed position to the

open position when said cylinder has been rotated to locate a parison at the selected orientation.
2. An Individual Section machine as claimed in claim 1, comprising deflector means (90) for deflecting parisons released from said neck ring holder arms into said cullet chute.
3. An Individual Section machine as claimed in claim 2, wherein said deflector means (90) comprises a deflector having opposed sides and a pair of arms secured to either side for hanging the deflector on the open opposed pair of blow mold support mechanisms.
4. An Individual Section machine substantially as herein described with reference to the accompanying drawings.
Dated this the 13th day of November, 2000

[JAYANTA PAL]
Of Remfry& Sagar
ATTORNEY FOR THE APPLICANT[S]

Documents:

1014-mum-2000-claims(granted)-(22-6-2005).doc

1014-mum-2000-claims(granted)-(22-6-2005).pdf

1014-mum-2000-correspondence(30-11-2005).pdf

1014-mum-2000-correspondence(ipo)-(22-12-2004).pdf

1014-mum-2000-form 1(13-11-2000).pdf

1014-mum-2000-form 1(23-3-2001).pdf

1014-mum-2000-form 19(25-10-2004).pdf

1014-mum-2000-form 2(granted)-(22-6-2005).doc

1014-mum-2000-form 2(granted)-(22-6-2005).pdf

1014-mum-2000-form 3(13-11-2000).pdf

1014-mum-2000-form 3(22-6-2005).pdf

1014-mum-2000-form 3(29-5-2001).pdf

1014-mum-2000-form 5(13-11-2000).pdf

1014-mum-2000-petition under rule 124(23-3-2001).pdf

1014-mum-2000-petition under rule 137(22-6-2005).pdf

1014-mum-2000-petition under rule 138(22-6-2005).pdf

1014-mum-2000-power of authority(28-6-2005).pdf

1014-mum-2000-power of authority(30-10-2000).pdf


Patent Number 204327
Indian Patent Application Number 1014/MUM/2000
PG Journal Number 43/2008
Publication Date 24-Oct-2008
Grant Date 15-Feb-2007
Date of Filing 13-Nov-2000
Name of Patentee EMHART GLASS S.A.
Applicant Address GEWERBESTRASSE 11, CH-6330 CHAM, SWITZERLAND.
Inventors:
# Inventor's Name Inventor's Address
1 FRANK ALAN FENTON 38 ZIMMER ROAD, GRANBY, CONNECTICUT 06035, U.S.A.
PCT International Classification Number C 0 38, 9/40
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 09/460,588 1999-12-14 U.S.A.