Device for transporting a hollow body, installation provided with such devices, and method for conveying a hollow body attached to such a device

Abstract

The invention concerns a device, an installation and a method for conveying a hollow body secured to a transport device, comprising a step of injection of a disinfecting fluid through at least one bore designed to pass through said transport device and opening into the inner volume of the hollow body secured to said transport device.

Claims

1. A method of conveying a preform for heating the preform prior to blow molding a container from said preform, comprising: providing an installation that includes a chassis and an endless conveyor including a transport device, the transport device being provided with a bore having an upstream aperture, wherein the endless conveyor conveys the upstream aperture along a path; providing an injecting nozzle attached to the chassis of the installation such that the injecting nozzle is fixed in position and directed to a predetermined point of the path; and conveying the preform that is secured to the transport device, prior to a blow molding stage, the bore having a downstream aperture that opens into an inner volume of the preform secured to said transport device; while the injecting nozzle is fixed in position, injecting a disinfecting fluid into the upstream aperture of the bore of said transport device during the travel of the upstream aperture, by projecting the disinfecting fluid out of the injecting nozzle toward the predetermined point of the path when said upstream aperture is passing the predetermined point of the path; channeling the projected disinfecting fluid through the bore and into the inner volume of the preform; and moving the preform into which the disinfecting fluid has been channeled to a heating zone, the heating zone heating a body of said preform comprising thermoplastic material to a glass-transition temperature of the thermoplastic material.

2. The method according to claim 1, wherein, during the injecting, a gap is maintained between the injecting nozzle and the upstream aperture.

3. The method according to claim 1, wherein the endless conveyor is an endless conveyor chain.

4. The method according to claim 1, wherein the endless conveyor is an endless conveyor belt.

5. The method according to claim 1, wherein the transport device comprises a gripping member that grips an interior of the preform during the step of channeling the disinfecting fluid into the preform.

6. The method according to claim 5, wherein the gripping member grips the interior of the preform in the heating zone.

7. A method of sterilizing a hollow body, comprising: conveying the hollow body, along a traveling path of an installation for conveying the hollow body, using a transport device on an endless belt or endless chain of the installation; and injecting a disinfecting fluid through a bore of the transport device while the hollow body is being conveyed by the transport device, wherein the bore opens into an inner volume of the hollow body secured to the transport device so as to inject the disinfecting fluid in the hollow body, and moving the hollow body into which the disinfecting fluid has been injected to a heating zone, the heating zone heating said hollow body that comprises thermoplastic material to a glass-transition temperature of the thermoplastic material; and wherein the injecting uses an injecting nozzle, the injecting nozzle being fixed so that the injecting nozzle faces a predetermined point of the traveling path of the bore during injecting of the disinfecting fluid so as to direct the disinfecting fluid toward the predetermined point of the traveling path of the bore as the bore travels past the predetermined point.

8. The method according to claim 7, wherein the transport device includes a gripping member that grips an interior of the preform, wherein the bore is disposed in the gripping member, and the gripping member grips the perform during the injecting and, after the injecting, the gripping member grips the preform during a heating of the preform.

9. A method of conveying a preform, comprising: providing an installation that comprises a chassis and an endless conveyor having a transport device that travels along a conveying path, wherein the transport device is an elongated member having a gripping head at a first end with an outlet aperture, an inlet aperture at a second end opposite the first end, and a fluid conduit extending from the inlet aperture to the outlet aperture, and wherein the outlet aperture is smaller than an opening of the preform at a neck of the preform; providing an injecting nozzle fixed in position relative to the chassis and directed to a predetermined position on the conveying path; removably coupling the gripping head to the neck of the preform, so that the outlet aperture opens directly into an internal volume of the preform; prior to blow molding the preform, conveying the preform with the transport device along the conveying path and, as the transport device passes the predetermined position, injecting a disinfecting fluid into the inlet aperture by ejecting the disinfecting fluid from the injecting nozzle toward the predetermined position when the inlet aperture passes the predetermined position, so that the disinfecting fluid is channeled through the fluid conduit and the outlet aperture and into the internal volume of the preform.

10. The method according to claim 9, wherein the fluid conduit has a length that is greater than a length of the preform from a bottom of the preform to a top of the neck of the preform.

11. The method according to claim 9, wherein the gripping head is removably coupled to an internal surface of the neck of the preform.

12. The method according to claim 9, wherein the gripping head, when coupled to the preform, obstructs the opening of the preform neck.

13. The method according to claim 9, comprising, after injecting the disinfecting fluid, conveying the preform with the transport device to a heating zone and heating the preform to a glass transition temperature of a thermoplastic material of the preform while the preform remains coupled to the transport device.

14. The method according to claim 9, comprising a plurality of the transport devices that travel in line one after the other along the conveying path.

15. The method according to claim 9, wherein, when injecting the disinfecting fluid into the inlet aperture, a gap is maintained between the injecting nozzle and the inlet aperture.

16. The method according to claim 9, wherein, when injecting the disinfecting fluid into the inlet aperture, a gap is maintained between the injecting nozzle and the transport device.

17. The method according to claim 9, wherein the endless conveyor is an endless conveyor chain.

18. The method according to claim 9, wherein the endless conveyor is an endless conveyor belt.

Description

BRIEF DESCRIPTION OF THE DRAWING

(1) The present invention will now be described with the aid of an example that is only illustrative and in no way limiting of the scope of the present invention.

(2) FIG. 1 represents a view in axial section of a device for transporting and gripping a hollow body according to the invention, which device, in cooperation with a blowing nozzle, makes it possible to carry out an operation of releasing of the preforms; and

(3) FIG. 2 represents a schematic view of the blowing nozzle on a chassis of an installation, and an endless conveyor that carries the transport devices.

DETAILED DESCRIPTION OF THE INVENTION

(4) In a simplified manner, FIG. 1 represents a view in axial section of a device 1 for transporting a hollow body, such as a preform 2 made of thermoplastic material. The preform 2 has a body 3 extending in a substantially longitudinal manner and a neck 4 separated from the body 3 by a collar 5 extending in a substantially transverse direction.

(5) The transport device 1 comprises a gripping member 6 with a gripping head 7 capable of being secured to the preform 2, and preferably, of being secured in a sealed manner to its neck 4.

(6) Shown in FIG. 1 is an “internal” gripping of the preform 2 and of the type described in the aforementioned document FR 2 794 109, that is to say that the gripping head 7 is inserted inside the neck 4 and therefore presses on the inner face of the neck 4.

(7) However, it should be noted that the principle according to the invention applies equally to an “external” gripping of the preform 2, that is to say when the gripping head 7 presses on the outer face of the neck 4, in general pressing on the thread 8 of the neck 4.

(8) According to the invention, the gripping member 6 has at least one bore 9 opening through the gripping head 7.

(9) Therefore, according to a first application of the invention, the preform 2 is capable of being separated from the gripping head 7 by injection of a pressurized fluid (preferably compressed air at a pressure of the order of at least several bar, from 2 to 5 bar) in the bore 9 then opening into the closed volume 10 which is formed by the body 3 of the preform 2 secured to said head 7 and to do so whether the volume 10 is perfectly sealed or not.

(10) Alternatively, the inside of the preform 2 can be disinfected by injection of a disinfecting fluid into the bore 9 opening into the closed volume 10 which is formed by the hollow body 3 secured to said head 7.

(11) In general, it is possible to inject any type of fluid through the bore 9 having an appropriate interaction and/or a desired processing action on the closed volume 10 which is formed by the hollow body 3 secured to the head 7.

(12) The bore 9 is therefore designed passing through the gripping member 6, in a substantially rectilinear manner inside said member 6. This bore 9 is of generally cylindrical shape and is formed centrally in the member 6, that is to say that considering the gripping member 6 defines a main gripping axis X-X, the axis X-X relative to which it is determined whether the preform 2 is correctly secured to the gripping head 7 and in line with the latter, then the bore 9 is substantially formed coaxially with the main gripping axis X-X.

(13) More precisely, the gripping member 6 comprises a mandrel 11 having said gripping head 7 and a gripping rod 12 to which said mandrel 11 is attached, preferably in a removable manner.

(14) The bore 9 is therefore formed and hollowed both in the gripping rod 12 and in the mandrel 11.

(15) In order to limit the pressure losses during the injection of the pressurized fluid in the bore, said bore is designed to be substantially rectilinear inside the gripping member and it is advantageously of a general shape that is substantially cylindrical.

(16) More precisely, the bore 9 has an upstream aperture 13 for the injection of a fluid and a downstream aperture 14 in the gripping head 7. The upstream aperture 13 has a narrowing of its cross section in the direction of the downstream aperture 14.

(17) At the upstream aperture 13, in order to allow a maximum quantity of fluid to be channeled, directed and to enter the bore 9, it is therefore provided that the upstream aperture 13 has a larger cross section than the cross section of the majority of the bore 9, and in particular larger than the cross section of the downstream aperture 14.

(18) Even though what is shown in FIG. 1 is a transport device 1 with a single central bore 9, it is also possible to provide several bores 9, for example placed concentrically with the main gripping axis X-X, or to provide a bore 9 that is divided into several secondary bores all opening into the gripping head 7.

(19) The present invention also relates, according to a second of its aspects, and in a more general manner as shown in FIG. 2, to an installation for conveying hollow bodies 2 comprising a plurality of transport devices 1 which travel in line one after the other on an endless chain 23, of a type that is known per se, as can be seen, for example, in the aforementioned document FR 2 872 805.

(20) The conveying installation comprises means for injecting a jet of fluid such as a pressurized blowing fluid, for example at a pressure of between 2 and 5 bar, in the knowledge that, on this type of machine, a pressure is available of up to 40 bar, which means for injecting blowing fluid are directed toward a point of passage of at least one bore 9 formed internally in a transport device 1 when it travels on the endless chain 23.

(21) Preferably, the injection means take the form of a blowing nozzle 15 which is fixed, attached to a chassis 22 of the installation, not shown, which nozzle 15 is therefore directed toward a point of passage of the upstream aperture 13 of the bore 9 during the travel of the transport devices 1 associated with the endless chain 23.

(22) In order to prevent too great a loss of the fluid injected through the nozzle 15, said nozzle 15 is situated facing a point of passage of the upstream aperture 13 of the bore of the transport devices 1 and it is only a very short distance from this upstream aperture 13, for example of the order of a millimeter, or even a few millimeters.

(23) According to one application of the invention, the conveying installation may also comprise detection means 21 such as a shape-recognition camera or other monitoring means, in order to reveal a defect of alignment of the body 3 of the preform 2 with the main gripping axis X-X and the axis of the gripping head 7, whereby it is determined whether the preform 2 transported by said gripping head 7 must be separated from the latter by the injection of the pressurized blowing fluid.

(24) The command of this injection may be carried out via a programmable controller which receives and processes the information originating from the detection means mentioned above.

(25) This programmable controller comprises a program arranged to organize the command of the injection of the pressurized fluid into the preform that is recognized as having a defect that is likely to cause incidents in the oven for heating these preforms.

(26) The arrangement of the injection program comprises a phase that is appropriate for the administration of the pressurized fluid to the selected preform, which phase extends, for example, for a period that is substantially greater than the time taken by said selected preform to pass in front of the spraying nozzle so as to ensure an injection time of said pressurized fluid into the bore that is sufficiently long to ensure that said selected preform is ejected.

(27) This injection phase is also arranged to allow an anticipation of the triggering of the injection of the pressurized fluid into said undesirable preform facing the passage of said undesirable preform in front of the nozzle 15 for spraying said fluid and for maintaining this injection of said pressurized fluid at least until the gripping head 7 has completely passed in front of said nozzle 15 for spraying said fluid.

(28) The invention therefore makes it possible, in general, to produce a method for conveying a preform 2 secured to a transport device 1, said method comprising a step of injection of a fluid through at least one bore 9 designed to pass through said transport device 1 and opening into the inner volume 10 of the body 3 of the preform 2 secured to said transport device 1.

(29) According to another form of application of the invention, a disinfecting fluid is injected through the bore 9. Alternatively, a pressurized fluid is injected, which makes it possible to separate the hollow body 2 from the gripping head 7.

(30) Therefore, in summary, according to one application of the invention, it is detected, with the aid of the detection means, whether a preform 2 is out of alignment with the axis X-X or has a manufacturing defect. It is then determined, with the aid of the programmable controller and of appropriate programs and/or computing means, when the transport device 1 with this preform, and more precisely its bore 9, will pass in front of the means 15 for injecting blowing fluid, in order then to command the injection of this fluid in order to release the preform (or any hollow body secured to a gripping head 7), which may then be collected in a container 20.

(31) The response time of the fluid injection means is markedly faster than the response times of the piston-based pneumatic means according to the aforementioned prior art, which makes it possible to release only one preform at a time.

(32) Therefore, according to a first application of the invention, the hollow body is capable of being separated from the gripping head by injection of a pressurized blowing fluid in the bore then opening into the closed volume that is formed by the hollow body secured to said head.

(33) Alternatively, the inside of the hollow body can be disinfected by injection of a disinfecting fluid into the bore opening into the closed volume that is formed by the hollow body secured to said head.

(34) More generally, the invention can find its place on an installation for transporting necked receptacles, where it is sometimes necessary to release the hollow bodies that have a defect, such as, for example, on leaving the preform blow molding unit.