Title of Invention

"AN APPARATUS AND A METHOD FOR HEAT-WELDING AT THE CORNERS LENGTHS OF PROFILES FOR SEALING GASKETS"

Abstract Apparatus for heat-welding at the corners lengths of profiles (10,11) for sealing gasketscomprising at least one bellows-like extendible, or compressible, air chamber, with said lengths of profile being cut at their ends (15,16) according to a suitable angle, characterized in that said apparatus has a heating element (21) to heat the ends of said lengths of profile for sealing gaskets, clamps (17,18,19,20) to keep them fastened, needles (24) for injecting air inside the interior of said air chamber of each of said lengths of profile nearby said end to be heat-welded and devices (27,28) to choke each length of said profile by completely occluding said air chamber along the choking section.
Full Text The present invention relates to an apparatus and a method for heat-welding at the corners lengths of profiles for sealing gaskets.
Gaskets for refrigerators made from such materials as PVC which are constituted by a base element designed to be fastened onto refrigerator door, an intermediate bellows-like chamber which secures the extension or compression motions an a seat designed to house magnetized material which realizes the tight shutting of refrigerator door by cooperating with the metal edge of the refrigerator are well known.
Such gaskets are extruded as straight profiles which are then cut into lengths according to the size of the refrigerator cabinet to which they must be applied. Said extruded profiles are cut at their ends according to angle of 45 , and at these ends the so prepared lengths of profile are then joined by heat-welding in order to produce ready frames for application to the refrigerator cabinet.
The present invention relates to a novel method for heat-welding useful profiles for manufacturing such gaskets for refrigerators, for freezers or for other similar applications.
To say it in more general terms, the method proposed by the present invention relates to manufacturing useful gaskets for operating under tight sealing conditions also for other applications, different from those relating to the refrigerators field.
In general, the purpose of the method proposed by the present invention is of providing very strong heat-welded joints at the junction zones.
In order to achieve said purpose and to provide other advantages which will be clear from the following disclosure, the present invention provides an apparatus for heat-welding at the corners lengths of profiles for sealing gaskets comprising at least one bellows-like extendible, or compressible, air chamber, with said lengths of profile being cut at their ends according to a suitable angle, characterized in that said apparatus comprises a heating element to heat the ends of said lengths of profile for sealing gaskets, clamps to keep them fastened, needles for injecting air inside the interior of said air chamber of each of said lengths of profile nearby said end to be heat-welded, and devices to choke each length of said profile by completely occluding said air chamber along the choking section.
The present invention also relates to a method for heat welding at the corners lengths of profiles for sealing gaskets, using the apparatus said method comprising the following steps:
a) heating the ends of two lengths of profile inside a suitable device comprising clamps;
b) choking each of said lengths of profile nearby said ends so as to completely occlude said air chamber along the choking section, closing said clamps in order to cause said pair of lengths of profile to come into mutual mating contact at their heated ends, and injecting air into the interior of the air chamber in the region comprised between the choking section and the end, such that the walls of the lengths of profile in that region are pressed against the walls of the clamps, thus joining said ends by heat-welding;
c) opening said occluded sections; and
d) heat-welding a free end of the so heat-welded pair of lengths of profile with a third length of profile by acting in a similar way, and finally with the fourth, and last, length of profile, so as to form a gasket frame heat-welded at its corners.
In order to better understand characteristics and advantages of the method according to the present invention, an exemplifying embodiment thereof is reported by referring to the figures of the accompanying drawings. In no way such an example should be understood as being limitative of the scope of the invention.
Figures 1-5 show five consecutive steps of the method according to the present invention.
Figure 6 shows a detail of figure 5, and finally
Figure 7 shows a cross sectional view of a gasket which is being heat welded according to the method of the exemplifying embodiment, coupled with a device for injecting air according to one of the above defined steps.
Referring to figure 1 of the accompanying drawings, the reference numerals (10) and (11) show two lengths of profiles foe sealing gaskets of the
type shown in particular in Figure 7.
Such a gasket of Figure 7 comprises a base element (12) designed for being used in order to fasten the gasket, for example to the counter-door piece of the refrigerator cabinet, a bellows-like extendible, or compressible, intermediate air chamber, and finally a front seat (14) designed to receive and house a magnetized material.
Going back to Figure 1, both lengths of profile (10) and (11) are cut, at their respective ends (15) and (16), with an angle of 45°.
Both lengths of profile (10) and (11) are positioned, with said ends (15) and (16) being mutually opposite, inside the interior of a suitable heat-welding device constituted by a pair of fixed clamp jaws (17) and (18), designed to cooperate with a complementary pair of mobile clamp jaws (19) and (20) .
Once that both lengths of profile (10) and (11) are positioned as shown in Figure 1, the mobile clamp jaws (19) and (2 0) are moved towards the fastened clamp jaws, until they come to their operating position as shown in Figure 2.
The ends (15) and (16) of both lengths of profile are then heated by placing, between them, a heating element (21) until said ends of both lengths of profile reach a softened state.
The heating element (21) is then removed as displayed in Figure 4.
Finally, the heat-welding clamps are
definitively clamped, as shown in Figure 5, i.e., by closing said pairs of clamp jaws (17), (18) and (19), (20) so as to firmly lock both lengths of profile (10) and (11) inside the mould interior, as shown in Figure 5.
In Figure 5 there is displayed an air injecting device with which the fixed clamp jaws (17) and (18) are equipped.
In fact, longitudinally inside said clamp jaws
and parallel to each other, two hollow cylinders
(21) and (22) are provided inside each of which a
respective piston (23) can slide which is equipped
with a hollow needle (24) opened at its end (25)
(see the detail of Figure 7).
Each of said air injecting devices is controlled by a solenoid valve (26) which controls the compressed air injection into the interior of each of said cylinders (21) and (22) . Air fed into the interior of the cylinders causes the piston (23) to istantaneously move forward and is discharged through the perforated tip (25) throughout the time during which the solenoid valve remains energized.
When the solenoid valve is de-energized, the piston with its needle returns back to its resting position, by being urged to return by a spring (29) provided inside the interior of the cylinder.
In such a way, the needle (24) borne by the piston (23), under the effect of pressure of injected air can extend outwards from the head of the cylinder (21) and (22), until it comes into
contact with the side wall of the air chamber (13) of the gasket facing it in that position in which said profile for sealing gaskets is kept by the heat-welding mould.
Going back to the position shown in Figure 5, when the heat-welding mould is totally closed in order to cause both ends (15) and (16) of both lengths of profile to come into mutual mating contact, simultaneously with such position reaching, the solenoid valve (26) commands air to be injected through both cylinders (21) and (22) and the respective needles (24) to move forward, which are consequently pushed to extend outside from their seat until they come into contact with the side wall, and perforate the air chamber (13), of the profile for sealing gaskets, as schematically shown in Figure 7. Compressed air is then injected through the bore of the hollow needle (24), through the opening (25), into the interior of said air chamber (13). Simultaneously, each of both lengths of profile (10) and (11) is choked at a cross-section thereof by means of the devices (27) and (28), as shown in particular in Figure 6.
Such devices (27) and (28) can be constituted, for example, by cylindrical compressive means integral with pneumatic pistons which drive them automatically.
Compressed air injected into the interior of the air chamber (13) cannot therefore escape from said air chamber from the heat-welding area, because
the internal bores of said profile for sealing gaskets are totally occluded at (27) and (28), and, as a consequence thereof, compressed air injected into the interior of the air chamber (13) by the needle (24) remains under pressure inside the region bounded by said choking section and said end of said length of profile, consequently applying a pressure to the walls of said lengths of profile in that region, pressing them against the walls of the clamping jaws.
In that way, while the heat-welding of both heated ends (15) and (16) of the lengths of profile is taking place, a pressure is simultaneously exerted from the interior of the air chamber of the profile for sealing gaskets, the effect of which will be of pushing both ends (15) and (16) against each other, as well as of exerting an expansion and consequently a compression of the walls of the profile for sealing gaskets against the walls of the heat-welding mould.
Pressurized air so fed to the air chamber performs the task of causing the walls of the profile for sealing gaskets to perfectly adhere to the wall of the clamps, thus considerably improving the mutual contact of the parts which must be heat-welded to each other during the heat-welding time.
We wish to remind that a further advantage is obtained thanks to the improved mutual adherence of those parts of both lengths of profile which must be heat-welded, associated with the normal formation of
burr of material in the heat-welding area, which generally produces fins which must be removed.
The presence of compressed air injected from the outside according to the method of the present invention makes it possible such an excess of material, which otherwise would form such burrs, to be advantageously conveyed into the interior of a suitable groove provided along the inner angle of both lengths of profile of Figure 5, between both fixed clamp jaws (17) and (18) which therefore acts as a suitable seat for receiving said material excess, so that at the inner angle of both so heat-welded lengths of profile a rib (30) of plastic material is formed which will act as a stiffening means of the profile frame in the angle in question, with a further reinforcement of the end effect of joining both said lengths of profile.
Air injection according to the method of the present invention offers a further advantage deriving from that it causes a fast cooling to take place of the parts heat-welded to each other, consequently allowing the heat-welding operation to be speeded up and offering the possibility of de-moulding more rapidly the heat-welded frame, with said frame being immediately handeable.
A further object of the present invention is a suitable apparatus for implementing the method disclosed hereinabove.
Such an apparatus comprises both the heat-welding mould with the relevant clamps as disclosed
above, and the air injection device and the choking devices and, relatively to as disclosed in the preceding examples, it may comprise several variants capable of producing the same effect of pressurized air injection into the interior of the air chamber of the profile for sealing gaskets.
The method according to the present invention can then be further improved by applying a vacuum from outside of the heat-welding device, thus making it possible the lengths of profile to be positioned in an ideal way inside the interior of the same mould, because the effect of said vacuum is of causing said lengths of profile to adhere even better to the clamps, thus improving the static conditions of the system during the heat-welding operations and consequently the working precision.
The heat-welding method of the present invention is suitable for application to any suitable materials used for manufacturing gaskets for refrigerators and gaskets for other applications different from refrigeration industry, for example for motor vehicles, which may use, or less, magnetic effects, for example for such polymeric materials as PVC, or different from PVC.






WE CLAIM :
1. Apparatus for heat-welding at the corners lengths of profiles (10, 11) for sealing gaskets comprising at least one bellows-like extendible, or compressible, air chamber, with said lengths of profile being cut at their ends (15, 16) according to a suitable angle, characterized in that said apparatus comprises a heating element (21) to heat the ends of said lengths of profile for sealing gaskets, clamps (17, 18, 19, 20) to keep them fastened, needles (24) for injecting air inside the interior of said air chamber of each of said lengths of profile nearby said end to be heat-welded, and devices (27, 28) to choke each length of said profile by completely occluding said air chamber along the choking section.
2. Apparatus as claimed in claim 1, wherein said needles are integral with a sliding piston inside a cylinder fed with compressed air by the action of a suitable control element, as a solenoid valve.
3. Apparatus as claimed in claim 1, wherein said choking devices are constituted by cylindrical compressive devices integral with pneumatic pistons which automatically control the operations thereof.
4. Method for heat-welding at the corners lengths of profiles for sealing gaskets, using the apparatus as claimed in claim 1, said method comprising the following steps:

a) heating the ends of two lengths of profile inside a suitable device comprising clamps;
b) choking each of said lengths of profile nearby said ends so as to completely occlude said air chamber along the choking section, closing said clamps in order to cause said pair of lengths of profile to come into mutual mating contact at their heated ends, and injecting air into the interior of the air chamber in the region
comprised between the choking section and the end, such that the walls of the lengths of profile in that region are pressed against the walls of the clamps, thus joining said ends by heat-welding;
c) opening said occluded sections; and
d) heat-welding a free end of the so heat-welded pair of lengths of profile with a third length of profile by acting in a similar way, and finally with the fourth, and last, length of profile, so as to form a gasket frame heat-welded at its corners.

5. Method as claimed in claim 4 wherein said cutting angle of said lengths of profile is of 45°.
6. Method as claimed in claim 4, wherein from outside, vacuum is applied to said lengths of profile positioned between said clamps.
7. Apparatus for heat-welding at the corners lengths of profiles for sealing gaskets substantially as hereinbefore described with reference to the accompanying drawings.
8. Method for heat-welding at the corners lengths of profiles for sealing gaskets substantially as hereinbefore described with reference to and as illustrated in the accompanying drawings.

Documents:

927-del-1996-abstract.pdf

927-del-1996-claims.pdf

927-del-1996-complete specification (granted).pdf

927-del-1996-correspondence-others.pdf

927-del-1996-correspondence-po.pdf

927-del-1996-description (complete).pdf

927-del-1996-drawings.pdf

927-del-1996-form-1.pdf

927-del-1996-form-13.pdf

927-del-1996-form-2.pdf

927-del-1996-form-3.pdf

927-del-1996-form-4.pdf

927-del-1996-gpa.pdf

927-del-1996-petition-137.pdf

927-del-1996-petition-138.pdf

abstract.jpg


Patent Number 194942
Indian Patent Application Number 927/DEL/1996
PG Journal Number 50/2004
Publication Date 11-Dec-2004
Grant Date 17-Mar-2006
Date of Filing 01-May-1996
Name of Patentee INDUSTRIE ILPEA S.P.A.,
Applicant Address VIALE DELL` INDUSTRIA 37-MALGESSO (VARESE), ITALY.
Inventors:
# Inventor's Name Inventor's Address
1 PAOLO CITTADINI VIA CAMPO DEI FIORI 16-LUVINATE, VARESE, ITALY.
2 UMBERTO LOVISON VIA GARIBALDI 42-BREBBIA, VARESE, ITALY.
PCT International Classification Number B29C 65/02
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 NA