WO2007010373A1 - Machine and method for carrying out containers and containers obtained thereby - Google Patents

Abstract

A machine for carrying out two containers, lower (100) and upper (200), or arrays of the containers, for at least a product (P) starting from a tubular element of semi- fluid plastic material (110) provided, in an operational condition (O) of the machine (1), to forming means (2) by rising above production means (3) producing said semi-fluid tubular element (110) nearly vertical. The forming means (2) comprise, starting from the lower part and in mutual sliding match, first moulding means (4) , second moulding means (5) and closing means (6) provided with respective moving members driven between closing and opening conditions of the respective moulding means (4, 5) and of closing means (6). The machine (1) comprises furthermore supplying means (7) of the product (P) in the containers (100, 200) in moulding.

Description

MACHCVE AND METHOD FOR CARRYING OUT CONTAINERS AND CONTAINERS OBTAINED THEREBY

TECHNICAL FIELD

The present invention relates to the field of containers and it refers to a machine and to a method for carrying out containers and the containers obtained thereby. In particular, the containers can be of mono-dose or multi-dose type for liquid.

BACKGRQUND ART

There are known machines and methods, generally of the moulding type by means of blowing, for the production of plastic mono-dose vials, each of them is filled with a liquid.

Said known machines and methods provide the production of a single container or of a side-by-side array of containers made by a single moulding operation. The number of containers can be made in a single moulding operation depends on the sizes of the containers and the transversal overall dimensions of the mould of said known type machine.

A drawback of said known machines and methods consists in that the quantity of the feasible containers with a single moulding operation is limited by the transversal overall dimensions of the respective moulds.

Other drawback of said known machines and methods consists in that the quantity of off-cuts for each formed container is excessive because the off-cuts, or the expensive discarded material, is constant in each moulding operation.

DISCLOSURE OF THE INVENTION An object of the present invention is to propose a machine and a method to carry out containers which can provide a high productivity, at least 60% higher than the productivity in the unit of time of said known machines and methods.

Other object is to propose a machine and a method to halve or to reduce the off- cuts per each formed container.

Further object is to propose a machine and a method to fill the containers during then- moulding in simple and fast manner.

Other object is to propose simple and reliable containers mutually connected forming a matrix and thus easily to be stored and packed.

BRIEF DESCRIPTION OF THE DRAWINGS

The characteristics of the invention are highlighted in the following with particular reference to the attached drawings, in which:

- figures 1 - 10 illustrate schematic and partial transversal section views of moulding means of the machine to carry out containers in a sequence of successive production phases of the containers according to the method of the present invention.

BEST MODE OF CARRYING OUT THE INVENTION

With reference to the figures 1 - 10, numeral 1 indicates the machine of the present invention, while the lower and upper containers produced by said machine 1 are respectively indicated by numerals 100 and 200.

The containers 100, 200 are fit to contain a same product P, for instance pharmaceutical, cosmetic, for technical use or the like product, or to contain two distinct products P, preferably in single doses.

The lower 100 and upper 200 containers are carried out starting from a semi-fluid plastic tubular element 110, so-called "Parison", almost vertical and provided, in an operational condition O of the machine 1, by production means 3 almost vertical and positioned above forming means 2.

The forming means 2 form at least two arrays, one of lower containers 100 and the other one of upper containers 200. Said lower 100 and upper container 200 being mutually jointed in such a manner that they can be manually or mechanically separated.

The forming means 2 comprise, starting from the lower part and with mutual sliding match, first moulding means 4, second moulding means 5, closing means 6 and support means 19 almost coaxial and provided with respective moving members.

Said moving members of the moulding means 4, 5, closing means 6 and support means 19 are moved by driving means of the forming means 2 in simultaneous and independent way between the closing and opening conditions of the respective moulding means 4, 5, closing means 6 and support means 19.

The machine 1 comprises furthermore supplying means 7 provided with one or more spouts to fill the containers 100, 200 with one or more products P during then- moulding.

The machine comprises cutting means, known and not shown, fit to cut trans versally the semi-fluid tubular element 110 immediately above the moulding means 2 to allow the supplying means 7 to access in the forming means 2 during the moulding of the containers 100, 200.

The production means 3 of the semi-fluid tubular element 110 or, preferably, the supplying means 7 are movable in respect to the forming means 2 to avoid mutual interferences.

The machine 1 can comprise means for the moulding of so-called "blow moulding" type and is equipped with blowing means, of known type and not shown, to produce an overpressure, in compare with the outside, inside the semifluid tubular element 110 during its moulding. The blowing means can be of pressure type flowing inside the "Parison" 110 or they can be of depression type and external to the "Parison."

The moving members of the first moulding means 4 comprises a plurality of shaped recesses 8 for the moulding of the lower containers 100. Said recesses 8 comprise, starting from the lower part, lower closing elements 9, foπning elements of the containment portion 10 and forming elements of the mouthpiece 11 of the lower container 100.

The moving members of the second moulding means 5 comprise a plurality of shaped recesses 12 for the moulding of the upper containers 200.

Said recesses 12 comprise, starting from the lower part, closing elements 13 fit to close the upper and lower portions of the containers respectively lower 100 and upper 200, forming elements of the containment portion 14 and forming elements of the mouthpiece 15 of the upper container 200.

The moving members of the closing means 6 comprise a plurality of shaped recesses 16 to mould the upper portion of the upper containers 200 and they comprise upper closing elements 17 of said upper containers 200.

The support means 19, positioned above the closing means 6, are provided with respective moving members fit to match with the semi-fluid tubular element 110 during its moulding to support it after its cut. The closing and separating elements 13 of the second moulding means 5 are shaped in a manner to form a breakable junction line between the lower 100 and upper 200 containers.

The operation of the machine 1 according to the method of the present invention provides the following sequence of steps:

- to carry out the semi-fluid plastic tubular element 110 by means of the production means 3; - to insert the tubular element 110 between moving members of the first moulding means 4 and of the second moulding means 5 and of the closing means 6 positioned, from the lower part upward, for mutual sliding match;

- to close the first moulding means 4 forming one or more first containers 100 positioned in a rectilineal" array, the respective upper mouthpieces 101 being opened;

- to close the support means 19 to support the tubular element 110 keeping opened the upper end thereof;

- to transversally cut, by cutting means, the tubular element 110;

- to insert the supplying means 7 into the mouthpiece 101 and to pour in the lower container 100 a predetermined quantity of a product P;

- to take out the supplying means 7 from the semi-fluid tubular element 110;

- to close the second moulding means 5 forming one or more second containers 200 in rectilinear array and with the respective mouthpieces 201 in open condition and closing, at the same time, the mouthpieces 101 of the first containers 100;

- to insert the supplying means 7 into the mouthpieces 201 and to pour in the upper containers 200 a predetermined quantity of a product P;

- to take out the supplying means 7 from the semi-fluid plastic tubular element 110; - to closes the closing means 6 occluding the mouthpieces 201 of the upper containers 200;

- to wait for the consolidation of the containers, to open the moving members of first moulding means 4, of second moulding means 5 and of closing means 6 and to take out the two containers 100, 200 or the arrays of moulded containers containing the product P.

The method comprises also to maintain the internal pressure of the tubular element 110, during the moulding, higher than the external pressure by means of internal pressure or external depression blowing means.

The method provides to carry out an array of lower containers 100 with side portions mutually connected and with upper portions connected to lower portions of containers in an array of upper containers 200 with side portions mutually connected.

The method comprises also the possibility to fill the lower 100 and upper containers 200 with the same product P or, in alternative with different products P.

The containers of the present invention comprise at least an array of lower containers 100 removably connected to an array of upper containers 200. The lower 100 and upper containers 200 are manually removable connected and contain a same product P or different products P.

Obviously the invention provides also that the forming means 2 comprise further moulding means to carry out further arrays of containers in a single production sequence.

An advantage of the present invention is to provide a machine and a method to cany out containers with a high productivity, at least 60% higher productivity in the time unit than said known machines and methods.

Other advantage is to provide a machine and a method which can halve or reduce the off-cuts for every moulded container. Further advantage is to provide a machine and a method to fill the containers in simple and fast manner during their moulding.

Other advantage is to provide simple and reliable containers mutually matrix connected and thus easily to be stored and packed.

Claims

1) Machine to carry out at least two containers, lower (100) and upper (200) for at least a product (P), starting from a semi-fluid plastic tubular element (110) provided, in an operational condition (O) of the machine (1), to forming means (2) by rising above production means (3) producing said semi-fluid tubular element (110) nearly vertical; said machine (1) being characterized in that the forming means (2) comprise at least, starting from the bottom and in mutual sliding match, first moulding means (4) and second moulding means (5) and closing means (6) provided with respective moving members driven between closing and opening conditions of the respective moulding means (4, 5) and closing means (6); said machine (1) comprises furthermore supplying means (7) of the at least a product (P) into the at least two containers (100, 200) during their moulding; starting from an initial condition in which the semi-fluid plastic tubular element (110) is interposed between the moving members of the first (4), second (5) moulding means and of the closing means (6), the closure of the first moulding means (4) causes the moulding of the at least a lower container (100) with a respective open mouthpiece (101) through which the supplying means (7) pour the at least a product (P), the closure of the second moulding means closes the mouthpieces (101) of the at least a lower container (100) and forms the at least an upper container (200) with a respective open mouthpiece (201) through which the supplying means (7) pour at least a product (P), the closure of the closing means (6) closes the mouthpiece (201) of the at least an upper container (200), the subsequent opening of the first (4) and second

(5) moulding means, and of the closing means (6) allows the extraction from the forming means (2) of the at least two containers (100, 200) containing the at least a product (P).

2) Machine according to claim 1 characterized in that it comprises cutting means fit to cut transversally the semi-fluid tubular element (110) immediately above the forming means (2). 3) Machine according to claim 1 characterized in that at least one among the production means (3) of the semi-fluid tubular element (110) and supplying means (7) is movable in respect to the forming means (2).

4) Machine according to claim 1 characterized in that the forming means (2) form at least two arrays of lower containers (100) and upper containers (200) mutually jointed in a manner that they can be manually or mechanically separated.

5) Machine according to claim 1 characterized in that it comprises blowing means to produce an over-pressure, in compare to the outside, inside the semi-fluid the tubular element (110) during its moulding.

6) Machine according to claim 1 characterized in that the moving members of the first moulding means (4) comprise a plurality of shaped recesses (8) for the moulding of the lower containers (100), said recesses comprise, starting from the lower part, at least lower closing elements (9), moulding elements of the containment portion (10) and moulding elements of the mouthpiece ( 11 ) of the lower container (100).

7) Machine according to claim 1 characterized in that the moving members of the second moulding means (5) comprise a plurality of shaped recesses (12) for the moulding of the upper containers (200), said recesses comprise, staring from the lower part, at least closing elements (13), fit to close the upper and lower portions of the respective lower (100) and upper containers (200), moulding elements of the containment portion (14) and moulding elements of the mouthpiece (15) of the upper container (200).

8) Machine according to claim 1 characterized in that the closing means (6) comprise a plurality of shaped recesses (16) for the moulding of the upper portion of the upper containers (200) and upper closing elements (17) of said upper containers (200).

9) Machine according to claim 1 characterized in that the forming means (2) comprise support means (19) positioned above the closing means (6) and provided with respective moving members fit to match with the semi-fluid tubular element (110) during its moulding to support it.

10) Machine according to claim 7 characterized in that the closing and separating elements (13) of the second moulding means (5) form a breakable junction line between the lower containers (100) and the upper containers

(200).

11) Machine according to claim 9 characterized in that the moulding means (4, 5), closing means (6) and the support means (19) are nearly coaxial.

12) Machine according to according to claim 9 characterized in that the moving members of the moulding means (4, 5), closing means (6) and of the support means (19) are moved by driving means of the forming means (2) in simultaneous and independent manner.

13) Method for carrying out a container by the machine according to any one of preceding claims characterized in:

- to carry out a tubular element of semi-fluid plastic material (110) by means of production means (3); - to insert said tubular element (110) between moving members of first moulding means (4) and of second moulding means (5) and of closing means (6) positioned starting from the lower part upward, in a mutual sliding match;

- to close the first moulding means (4) forming the at least a first container (100) with a respective upper open mouth (101);

- to insert supplying means (7) in the mouth (101) and pour in the lower container (100) a preset quantity of a product (P); - to take out the supplying means (7) from the tubular element of semifluid plastic material (110);

- to close the second moulding means (5) forming the at least a second container (200) with a respective open mouthpiece (201) and closing contemporarily the mouthpieces (101) of the at least a first container

(100);

- to insert the supplying means (7) in the mouthpiece (201) and pour in the upper container (200) a preset quantity of a product (P);

- to take out the supplying means (7) from the tubular element of semi- fluid plastic material (110);

- to close the closing means (6) occluding the mouthpiece (201) of the at least an upper container (200);

- to wait for the consolidation of the containers, to open the moving members of moulding means, first (4) and second (5), and of closing means (6) and to take out at least two containers (100, 200) moulded and containing the product (P).

14) Method according to claim 13 characterized in cutting trans versally, by means of cutting means, the tubular element (110) before inserting the supplying means (7) in the mouthpiece (101) of the lower container (100).

15) Method according to claim 13 characterized in carrying out an array of lower containers (100) with side portions mutually connected and with upper portions connected to lower portions of an array of upper containers (200) with side portions mutually connected.

16) Method according to claim 13 characterized in filling the lower (100) and upper containers (200) with the same product (P) or with different products

(P)-

17) Method according to claim 13 characterized in supporting the tubular element (110), during the moulding, by means of support means (19). 18) Method according to claim 13 characterized in maintaining the internal pressure in the tubular element (110), during the moulding, higher than external pressure by means of internal pressure or external depression blowing means.

19) Containers made by the machine of any one of claims 1 - 12 or by the method of any one of claims 13 - 18 characterized in that it comprises at least an array of lower containers (100) removably connected to an array of upper containers (200) .

20) Container according to claim 19 characterized in that the lower containers (100) and upper containers (200) are connected in manually removable manner.

21) Container according to claim 19 characterized in that the lower containers (100) and upper containers (200) contain a same product (P) or different products.