Method and device for adjusting a preform conveyor

The invention claimed is: 1. A method of adjusting a conveyor ( 2 ) of preforms ( 1 ), each preform ( 1 ) having a format and comprising at least a body ( 100 ) surmounted by an annular collar ( 101 ) projecting radially relative to said body ( 100 ), forming a portion ( 102 ) under the collar ( 101 ), and including on the top a neck ( 103 ) terminated by a rim ( 104 ), said method comprising a preadjustment phase during which preforms ( 1 ) with a first format are conveyed along a longitudinal conveying surface ( 3 ) and wherein: each preform ( 1 ) is supported under its collar ( 101 ) by at least one pair of guides ( 7 ) defining a lateral support space ( 70 ) of said portion ( 102 ) under the collar ( 101 ); the lower part of the body ( 100 ) of each preform ( 1 ) is guided by at least one pair of rails ( 8 ) defining a lower transverse holding gap ( 80 ); the rim ( 104 ) of each preform ( 1 ) is guided by at least one top guide ( 9 ) defining a maximum height ( 90 ) between said guides ( 7 ) and the rim ( 104 ); said pair of guides ( 7 ), said pair of rails ( 8 ), said top guide ( 9 ) extending along the conveying length ( 3 ); said lateral support space ( 70 ), said lower holding gap ( 80 ) and said maximum height ( 90 ) being adjusted independently relative to said first format at different adjustment points distributed along the conveying length ( 3 ); values of the upper lateral space ( 70 ), of the holding gap ( 80 ) and of the maximum height ( 90 ) for said first format of preforms ( 1 ) are recorded; said method comprising starting phase in which the upper lateral space ( 70 ) and/or the holding gap ( 80 ) and/or the maximum height ( 90 ) is or are adjusted automatically in accordance with said recorded values, whereby the conveyor may be used to convey another format of preforms between the preadjustment phase and the starting phase. 2. The adjustment method as claimed in claim 1 , wherein the upper lateral space ( 70 ), the holding gap ( 80 ) and/or the maximum height ( 90 ) is or are adjusted at the levels of said different adjustment points distributed along the longitudinal conveying surface ( 2 ) in a manner tied to the upper lateral space, to the holding gap and/or to the maximum height, respectively. 3. The adjustment method as claimed in claim 1 , characterized in that the upper lateral space ( 70 ), the holding gap ( 80 ) and/or the maximum height ( 90 ) is or are adjusted by remote control of said adjustment points. 4. The adjustment method as claimed in claim 1 , characterized in that the value of the upper lateral space ( 70 ), of the holding gap ( 80 ) and/or of the maximum height ( 90 ) is modified at one adjustment point at least. 5. A device of adjusting a conveyor ( 2 ) of preforms ( 1 ), each preform ( 1 ) having a format and comprising of at least one body ( 100 ) surmounted by an annular collar ( 101 ) projecting radially relative to said body ( 100 ), forming a portion ( 102 ) under the collar ( 101 ), and including on the top a neck ( 103 ) terminated by a rim ( 104 ), said conveyor ( 2 ) comprising a longitudinal surface ( 3 ) for conveying said preforms ( 1 ) provided with means ( 6 ) for guiding said preforms ( 1 ), said guide means ( 6 ) comprising: at least one pair of guides ( 7 ) the positions of which define a lateral support space ( 70 ) for said portion ( 102 ) under the collar ( 101 ); at least one pair of rails ( 8 ) the positions of which define a lower transverse holding gap ( 80 ); at least one top guide ( 9 ) the position of which defines a maximum height ( 90 ) between said guides ( 7 ) and the rim ( 104 ); said adjustment device comprising a means ( 10 ) for adjusting said guide means ( 6 ), said adjustment means ( 10 ) comprising independent members ( 11 ) for adjusting the positions of each pair of guides ( 7 ), of each pair of rails ( 8 ) and of each top guide ( 9 ), said adjustment members ( 11 ) being distributed at adjustment points along said longitudinal conveying surface ( 3 ), wherein said adjustment device comprises: means for recording data on the positions of each pair of guides ( 7 ), of each pair of rails ( 8 ) and of each top guide ( 9 ) for each format of preforms ( 1 ); each adjustment member ( 11 ) comprising means for driving the movement of each pair of guides ( 7 ), of each pair of rails ( 8 ) and of each top guide ( 9 ); said driving means specific to the pair of guides ( 7 ), to the pair of rails ( 8 ) and to the top guide ( 9 ) being controlled in respective distinct groups; said adjustment means ( 10 ) comprising means for automatic control of each group of said driving means as a function of said data recorded for each format of preforms ( 1 ). 6. The adjustment device as claimed in claim 5 , wherein said control means comprise remote data processing means at least incorporating said recording means. 7. The adjustment method as claimed claim 2 , characterized in that the upper lateral space ( 70 ), the holding gap ( 80 ) and/or the maximum height ( 90 ) is or are adjusted by remote control of said adjustment points. 8. The adjustment method as claimed in claim 2 , characterized in that the value of the upper lateral space ( 70 ), of the holding gap ( 80 ) and/or of the maximum height ( 90 ) is modified at one adjustment point at least. 9. The adjustment method as claimed in claim 3 , characterized in that the value of the upper lateral space ( 70 ), of the holding gap ( 80 ) and/or of the maximum height ( 90 ) is modified at one adjustment point at least.