WO1998003325A1 - Thermoforming method using a free flat parison - Google Patents

Abstract

A method wherein a flat parison (2) is extruded using a flat die (1) in such a way that it hangs freely either at the extruder outlet or following a heat treatment, and the parison is squeezed in a moulding device (7) consisting of a mould (3) and a matching opposite mould (4) with a vertical land (5), and separated by a cutting means for cutting the upper portion (6) of the flat parison. Thermoforming is preferably carried out by injecting compressed air into the opposite mould cavity after retracting the moulding device.

Description

 THERMOFORMING PROCESS USING FREE FLAT PARISON

The traditional method ermo- t ormage uses a cycle ^f roid for performing pieces formed of a thin wall; an e :: extruder comprising a flat die continuously manufactures a strip of plastic material, with a thickness ranging from a fraction of a millimeter. ten millimeters and a width determined by that of the sector; this strip of thermo-plastic material is generally calendered between rollers :: at the outlet of the machine, to adjust the thickness thereof, while it is still plastic then it is cooled and cut into standard size sheets. During the implementation of these plates for thermoforms r, they are optionally cut again according to the characteristics of the shape to be coated; they are reheated, generally by panels :: radiant radiant in 1 î nf ra-r ouge then introduced uaπs the mold; the mold generally consists of a horizontal joint plane placed at its upper part, the shape to be molded being in a cavity placed below the joint plane; the plate is pinched on the joint plane of the mold so as to create a sealed volume with the mold cavity; the molding is generally done by placing the cavity thus closed in depression, while the plate comes to marry by creep, under the action of atmospheric pressure, the shape of the bottom of the oule cavity. When it comes to manufacturing large series of small parts, such as small Swiss jars, skin-formed from thin sheets, a hot cycle thermoforming is used; the sheet is continuously extruded slipped on a horizontal carpet; the leaf is pinched laterally by pins which connect it to two: lateral drive chains which accompany it throughout the cycle; it is conditonnée temperature while the side chains on the lead a chain _î mobile did horizontal multiple molds where it is molded as indicated here above pre; the separation of thermoformed objects only takes place on the finished part. Large series of large parts are

SUBSTITUTE SHEET {RULE 26) made, in the hot cycle from an extruded sheet held laterally by a raiting chain as in the previous example; the mold is moved back and forth accompanying the movement of the sheet in the molding phase and, after demolding, returning to position upstream at a new portion of thermoform sheet; part separation is only done at the end of the cycle.

There is also the blowing extrusion technique for the manufacture of hollow bodies: in thin walls such as bottles using a hot tube; it consists in extruding a tube ically. forming what is called a free parison the length of which is pinched in the joint plane of a mold and separated from the upstream part of the parison; the mold is retracted and the tube is then inflated with compressed air to allow the tube to marry, by creep under air pressure, the shape of each half mold in order to thus form a hollow body with thin wall; during this time the extruder extrudes the free parison length necessary for molding the next part.

The thermoforming technique which uses a cold cycle requires heavy means of extruding the plates which must be of great precision to allow the calendering which is itself imposed to allow uniform heating of the plate. The handling of the plates, their cutting and their reheating generate additional processing costs which generally lead to the abandonment of this technique for large series. Large series using the hot cycle require heavy mobile molding equipment.

The technique of extrusion blow molding with free tabular parison does not generally make it possible to produce the shapes which can be obtained by thermoforming, in particular because the more one moves away from a form of revolution the more it is difficult to control the good distribution of material thicknesses: in return it allows working in the hot cycle.

The ob _j e _and the invention is to combine the advantages of both techniques, extrusion blow molding and thermoforming, to produce parts the mo-formed wall thin in hot cycle.

Fig.1 shows an exploded perspective view of the device according to the invention open molding device. The Fιg.2 represents a perspective view of the device of the Fιg.1 with the closed and retracted molding device.

Fig.3 shows a perspective view of the mold part of the molding device according to a preferred version of the invention. The Fιg.4 represents a perspective view of the part against the mold of the molding device.

The Fιg.5 to 9 show in section of the molding device the various phases of the thermoforming cycle according to a preferred version of the invention. The Fι .10 rep és n e an erspective view of the extrusion device of the flat parison according to a preferred version of the invention.

The Fιg. 1 to 15 represent the various phases of the extrusion cycles corresponding to the thermoforming cycle of FIGS. 5 to 9. FIG. 16 represents an exploded perspective view of a device for cutting the thermoformed part during cycle.

In general, the invention consists in extruding vertically from a flat die (1) a length of a strip of thin plastic material, which will be called hereinafter "flat parison ( 2) ", to condition it at temperature, and to introduce it into a thermoforming device (7) formed by a mold ⁽ 3 ⁾ and a counter mold (4) which clamps a length of flat parison ( 2) in its joint plane (5) which is in a vertical position, to separate it from the upstream part ⁽ 6 ⁾ of the flat parison (2) located between the molding device ⁽ 7 ⁾ and the die <1>, to retract the molding device ⁽ 7 ⁾ Fιg.2 in order to carry out the thermoforming of the part; meanwhile the flat die (1) extrudes a flat parison length (2) sufficient for the rmo-f form the next part.

By way of example, without this example being limiting, it is possible to start from a conventional blow molding extrusion machine with free parison and comprising a retractable mold holder; we replaces t you to extrusion through a flat die _M) Fιg.1, and placed in the mold carries a retractable d ⁱ spositif of thermoplastic ormage (7) formed of a mold (3) fixed on one of the plates mold holder and a counter mold (4) fixed on the other plate; the joint plane (5) of the mold (3) and of the counter mold ⁽ 4 ⁾ is placed vertically parallel to the plane of the flat parison (2) during extrusion; a flat parison (2; of sufficient length being extruded, the mold holder is placed in the open position, so that the flat parison is placed between the mold (3) and the counter mold (4); closing the door mold the flat parison (2) is clamped in the joint plane (5) located between the mold (3) and the counter mold (4) so as to form a closed enclosure (?) with the internal wall forming the cavity ⁽ 8 ) of the mold (3); the flat parison (2) is cut by a suitable means (17) known, operated for example by a hydraulic cylinder (39); and the mold holder is retracted to allow the extruder to continue the extrusion of the flat parison (2) Fιg.2 for the next part. During this time it suffices for example to suck the air from the enclosure (9) as described above to obtain the desired part. then open, separating the mold (3) from the counter mold (4) and the part removed, then the mold holder is represented as described above. cédemment at the level of the flat parison (2) which has the length wanted to start a new cycle.

In a preferred version of the invention, the thermoforming device comprises a mold fιg.3 which is composed of two. parts; the first part consists of a frame (10) supporting the joint plane (13) and the second part constitutes the impression (11) of the form (14 ⁾ to be molded; the frame (10) and the imprint (11) slide relative to each other by means of guide columns (12). A blade ⁽ 21 ⁾ Fιg.3 is fixed on the imprint so • _. do not interfere with the travel of the frame (10) on the upper part of which it is supported; Ar cutting te (22) of the blade ⁽²¹⁾ which is parallel to the joint plane (13) and recessed with respect to _d ernier has a length greater than the width of the flat parison; the wire (22) of the blade ⁽ 21 ⁾ can be put at an angle when the extrusion process makes it possible to stop

SUBSTITUTE SHEET (FAGLE 26) the scrolling of the parison the time of the cut. When the molding device is open, the impression (11) is retracted with respect to the frame (10); this allows the cavity (11) to have well-formed volumes which do not interfere with the positioning of the flat parison when the molding device is open and which protrude beyond the joint plane (13) when the molding device is closed; the imprint (11) is kept retracted by an elastic device which can be for example, without this example being binding, composed of springs (15 ⁾ : when the molding device closes the joint plane formed by the contact of the frame (10) Fιg.5 and of the counter mold (4), closes Fιg.6 on the flat parison (16) so as to keep it taut, then the retouch (11) Fιg.7 takes its place relative to the frame (10) by sliding on the guide columns' 12) Fιg.3 and compression of the elastic system (15); at the same time the edge (22) of the blade (21) crosses the joint plane (13) and separates the flat parison (23) Fιg.6 from the next part of the molding device Fιg.7; during movement certain volumes of the shape (18) Fιg.7 of the imprint can cross the joint plane (13), the flat parison (16) coming to be applied on their surface. The counter mold Fιg.4 and (4) Fιg.5 comprises a cavity (19) bordered by a joint plane (20) which comes to apply Fιg.6 on the joint plane (13) of the frame (10) of the mold (3) in order to pinch the flat parison (16); this cavity (19) is deep enough to contain the volumes which exceed the joint plane when the molding device is closed: in a preferred version of the invention, the cavity (11) is provided with vents for evacuation air contained between the flat parison (16) and the cavity (11); when the molding device is closed on a flat parison (16) Fιg.7 compressed air is injected into the cavity (19) Fιg.8 of the counter mold (4) as we do to blow a bottle and we plate the flat parison ⁽ 16 ⁾ on the form (18) the imprint (11); the mold carriers having closing pressures of several tonnes, this makes it possible to use compressed air pressures of several bars and to obtain a very good surface quality of the part ⁽ 24 ⁾ Fιg.9 thus the mo- formed.

REPLACEMENT Keel (RULE 26) The extrusion of a flat parison (2) free Fιg.1 assumed that the material used has, at the extrusion temperature, ⁱ v scosité consistent with the length of material to be extruded, to form the flat length of parison ( 2) necessary and cycle time of the machine; indeed if the flat parison is too long or if it remains suspended too long, creep occurs which thins the flat parison ⁽ 2 ⁾ in the upper part and harms the quality of the product obtained. One way of proceeding, to avoid creep, consists in stocl-er the plasticized material at the end of the plasticizing screw as is commonly done in injection and in extruding the flat parison (2) using a jack at the time introduce it into the open molding device (7); this technique can lack reliability because when the flow of material is interrupted in a die its temperature changes and affects the fluidity of the material. The version of the invention which we have just described can be suitable for amorphous thermo-plastic materials such as polyethylenes or ρo lych 1 o rural vinyls; it can allow the use of existing blow molding machines without major modifications; however, the process is not suitable for thermoforming of so-called crystalline thermoplastic materials, the viscosity of which drops very rapidly as a function of the temperature in the temperature zone co res undulating at the extrusion temperature. In the preferred version of the invention, this problem is solved by extruding the material continuously on a movable belt (preferably 25 ^ horizontal which moves at substantially constant speed relative to the die).

(26); during its passage on the moving belt ⁽ 25 ⁾ the material is conditioned in temperature, by a temperature conditioning device (28). to bring it to a temperature where the internal friction between the molecules is sufficient to slow the creep. By way of nonlimiting example, the material can be extruded between 200 and 300 degrees centigrade and brought to the moving belt ⁽ 25 ⁾ at a temperature of the order of 80 to 100 degrees centigrade which may correspond to what is called for certain materials the caout zone chout i que and which reduces the time of cycle. At the end of the moving belt, the flat parison (27 ₎

Fig. 11 hangs in a vacuum to be able to be taken between the mold ⁽ 3 ⁾ and the counter mold (4) when it has reached a sufficient length as described above.

In a variant of the preferred version of the invention, the flat die ⁽ 26 ⁾ Fιg.11 deposits on the movable belt (25) a length of flat parison (27) sufficient to introduce it into the molding device (7) ; when the oulage device (7) is in esure to receive the flat parison (27), the movable belt (25) Fιg.12 starts to move to make it descend between the mold (3) and the counter-mold (4 ) a sufficient length of flat parison (27) Fιg.13, the curling device (7) F ig .1 is fe me on the μa reason p I i te (27) and the blade (21) integral with the 'e ein e (11) mold ≤ectiαnne l = ai appears its flat (27) while the ta is mobile (25) F i .15 returns l manages nt back to bring back the end (29) of flat parison (25 ) located between the moving belt (25) and the molding device (7) on the horizontal part of the moving belt (25) and the latter stops until the start of the next cycle; meanwhile the extruder (30) Fιg.10 which is mounted on a movable frame (31), relative to the frame supporting the molding device (s) (7) as well as relative to the frame supporting the movable belt (25) , moves at a controlled speed relative to the surface of the moving belt (25) and in the opposite direction to the direction of advancement of the moving belt (25), to continuously deposit a flat parison (27) of a known known material t her o- plastic on the moving belt (25); in general the thickness of material deposited on the carpet is constant - but one can modulate the speed of movement of one ex r uder (30) relative to the surface of the moving carpet (25) to modify the thickness in certain places to compensate for effects due to creep or if the configuration of the workpiece requires it. One way of achieving synchronization between the movements of the moving belt (25) and the movements of the extruder ⁽ 30 ⁾ is to use a synchronous motor to drive the drum motor (32) of the moving belt (25); a link chain ⁽ 33 ⁾ in closed loop is driven by a pinion ⁽ 34 ⁾ , integral with the motor drum (32) of the moving belt ⁽ 25 ⁾ , at the same

SUBSTITUTE SHEET (RULE 26) v ⁱ linear tesse that the moving belt (25); the strand of _a cha ^î not to link ⁽³³⁾ which moves in the direction of the ⁱ tapι _s mob ⁽²⁵⁾ supports the movable frame (31) of the extruder ⁽³⁰⁾ by the motorized wheel int rmédiaire (35) rotating at constant tesse v ⁱ in the opposite direction to the general direction of movement of the moving belt (25). As we explained previously, the speed of the motorized wheels (35) can be slightly modulated during the cycle to vary the thickness of the flat parison (27 ^ Such a device makes it possible in particular to use a molding device ("") which remains in place once it is closed since the e - 1 seamer ⁽ 30 ⁾ deposits the material on the movable belt (25) which is immobilized then introduces it between the mold (3) Fj.13 and the con r - oule (4; lo sque the molding device ⁽ "is open and the previous part (36) Fιg.11 gée.

The counter mold (3) Fιg.4 has a cavity (19) inside which it is possible to place one or more cutting devices Fιg.16 allowing the cutting of elements of the thermoformed part and working in the atmosphere of the thermoforming air pressure; a cutting device comprises a cutting tool (37) and an operating device (38) thereof; without this example being limiting, the operating device (38) can be made up of one or more preferably hydraulic jacks which apply the cutting tool (37) to the area to be cut at the same time as the material is applied to the shape of the impression by air pressure. However, the force necessary to ensure a good cut is several 1- lonewtons per centimeter of cut added to the gas pressure in the counter-mold which can be of the order of 8 to 10 bars can impose closing forces. several hundreds of ti 1 onewt ons: this implies, for example, the use of mold holders derived from injection pressure technology for thermo-plastic materials. The lurking. mobile (25) receiving the material extruded by the die must withstand temperatures between 200 and 300 degrees centigrade; it can for example be based on te lon to avoid notamm nt to the sheet to stick above .

The temperature of the material can be regulated by natural cooling and or by forced convection with the aid of a temperature conditioning device (28); when using fans it is preferable to fix the temperature conditioning device (28) to the frame (31) of the extruder so that whatever the movements of the moving belt (25) are cooling in forced convection remains essentially the same.

Claims

CLAIMS 1-Thermo-forming process of thermo-plastic material in hot cycle, starting from a thin sheet extruded in strip by a flat die (1) which continuously extrudes a flat parison (2 ⁾ , which hangs vertically and which when it has reached a sufficient length, is clamped by a molding device, the joint plane (5) of which is positioned vertically, which consists of a mold (3) comprising a cavity (14) and a counter mold (4) including a cavity '19! , characterized in that the part of the flat parison (2) pinched in the mold is separated from the upper part <6) of the flat parison (2) by cutting means (17) integral with the mold while the upper part (6) of the flat parison (2) and the molding device (7) retract one with respect to the other by retraction means associated with storage means and possibly with means temperature conditioning, the mold (3) may include internal cutting means of the thermoformed part. 2-molding description according to claim 1 characterized in that the mold is composed of a frame (10) supporting the joint plane (13) gripping the parison (16) against the joint plane (20) of the against mold (4), and an imprint (11) comprising the shape (18) of the part to be molded, the frame (10) and the imprint (11) sliding relative to one another thanks to columns (12) and elastic means (15) which hold the impression (11) retracted relative to the frame (10) when the molding device (7) is open. 3-Dιsρoειtιf molding according to claim 1 characterized in that the cutting means of the flat parison (16) consists of a blade (21 ⁾ integral with the imprint (11) and .'pressant on the upper part of the frame (10) and which cuts the parison ⁽ 16 ⁾ at the moment when the imprint (11) takes its place relative to the frame when the molding device C is closed. 1- Molding device according to the endi ation 1. characterized in that the cavity (1 ^{Q ~ l} comprises at least one device for cutting the part during t ermo-forming comprising a die cutting tool (37) ac ered by a operating device (38). 5-mold molding according to claim 1, characterized in that the flat parison ⁽ 27) is continuously extruded by movable extrusion means on a movable belt (25) where it can be temperature controlled by a device temperature conditioning (28) before hanging in a vacuum to be gripped by the molding device (7). 6-molding description, according to claim 5, characterized in that the flat parison (27 ⁾ is first stored on the movable belt (25), which is in the stopped position, by the die (26) including the extruder (30) moves at constant speed relative to the surface of the moving belt (25), then the mobile tap s starts to move to hang the flat parison (27) ve ti ally in order to introduce it into the device molding ⁽ 7 ⁾ in the open position, then when the molding device is closed and the flat parison (27) cut, brings the end (29) to the moving belt (25 ⁾ by a movement of reverse movement, then starts in the stopped position, while the die (26) continues to deposit the flat parison (27) on the moving belt (25). 7-Dιsραsιtιf molding according to CLAIMS ation 6 characterized in that the flat parison ⁽ 27 ⁾ is conditioned in temperature by a temperature regulation device (28) during the stop phase of the moving belt (5). 8-molding device according to any one of claims 5 and h characterized in that the relative speed of the extruder (30) relative to the moving belt (25) can be modulated during the cycle to vary the thickness of the flat parison ⁽ 27 ⁾ .