RU2779720C2 - Machine for manufacture of filter rods - Google Patents

Abstract

FIELD: tobacco industry.

SUBSTANCE: invention relates to a machine for the manufacture of filter rods. A machine for the manufacture of filter rods (1) in the tobacco industry is proposed, wherein filter rods (1) contain longitudinal objects (2) of a single length. In this case, the specified machine contains: preparatory unit (11) for the preparation of filtering fiber core (F); forming unit (12) for the formation of filter continuous rod (CR) of filtering fiber core (F); supplying unit (13) for the supply of longitudinal objects (6) of a multiple length; cutting unit (14) for cutting of longitudinal objects (6) of a multiple length into longitudinal objects (2) of a single length; transmitting unit (15) for the transmission of longitudinal objects (2) of a single length; positioning unit (16) for the placement of longitudinal objects (2) of a single length in filter continuous rod (CR) during its formation; cutting head (17) for cutting of formed filter continuous rod (CR), which contains filtering fibers and longitudinal objects (2) of a single length, into separate filter rods (1). Cutting unit (14) contains reel conveyor (22) with a set of tracks, containing a set of tracks located on the periphery of reel conveyor (22) with a set of tracks, while each track is made parallel relatively to other tracks and to an axis of rotation of reel conveyor (22) with a set of tracks for the reception of longitudinal objects (6) of a multiple length in tracks, and circular knife unit (23), while cutting unit (14) is made with the possibility of cutting of longitudinal objects (6) of a multiple length during their transportation on reel conveyor (22) with a set of tracks. Positioning unit (16) contains a pair of stationary longitudinal pushing elements (34, 34') located from both sides of positioning disc (30) for pushing longitudinal objects (2) of a single length out of transporting saddles (31) of positioning disc (30).

EFFECT: provision of a high quality of manufactured rods.

9 cl, 11 dwg

Description

FIELD OF TECHNOLOGY TO WHICH THE INVENTION RELATES

The present invention relates to a machine for making filter rods.

BACKGROUND OF THE INVENTION

Mouthpieces containing filter material are often used in tobacco industry products. Full filter segments are used, having a circular cross section, as well as tubular segments with a tube that can have any wall thickness. Mouthpieces are known in which full segments and tubular segments are combined with each other, while full segments and tubular segments are made of different materials or are made of the same type of material. There is a need to manufacture such two-segment mouthpieces in a simple and cheap manner and in such a way that the fibers of the filter material run along the entire length of the mouthpiece. There is a need in the tobacco industry for machines that produce these mouthpieces in a simple manner in a single process step.

GB1527705 discloses a machine in which thin-walled tubular members are fed inside a rod formed from acetate fibers.

US4,037,524 discloses a machine that produces a filter rod made from a barrel of an extrusion and separated in the extrusion by hollow plastic tubes. The machine includes means for supplying a continuous flow of extrusion to an injection station under a rotating wheel which delivers plastic tubes at intervals.

EP0295518 discloses cigarette filter rods having individual pellets spaced therein at predetermined intervals and prepared by cutting strands of plasticized material into pellets which are then inserted into a web of a filter extrusion. A wheel having a series of grooves rotates in a rim-like housing and the insertion of a plasticized flavor-containing strand into each groove causes the strand to be cut into pellets of the desired size.

SUMMARY OF THE INVENTION

Disclosed herein is a machine for making filter rods in the tobacco industry, said filter rods comprising single length longitudinal objects, said machine comprising: a preparatory block for preparing a strand of filter fibers; a forming unit for forming a continuous filter rod from the strand of filter fibers; a feed unit for feeding longitudinal objects of multiple lengths; a cutting unit for cutting longitudinal objects of multiple lengths into longitudinal objects of single length; a transfer unit for transferring longitudinal objects of single length; a positioning block for placing longitudinal objects of single length in a continuous filter rod during its formation; a cutting head for cutting the formed continuous filter rod, which contains filter fibers and single length longitudinal objects, into individual filter rods; wherein the cutting unit for cutting longitudinal objects of multiple lengths into longitudinal objects of single length includes a drum conveyor with a plurality of tracks.

The supply unit for supplying longitudinal objects of multiple lengths may include a channel adapted to supply longitudinal objects of multiple lengths in the form of a mass flow.

The transmission unit may be adapted to transmit single length longitudinal objects in the form of a stream of single length longitudinal objects through the channel.

The transfer unit for transferring single length longitudinal objects may comprise a transfer drum having a helical element on its side surface.

The separating block may be located at the end of the channel and adapted to receive the single length longitudinal objects and to transfer the single length longitudinal objects, one by one, to the positioning block.

The positioning unit for placing longitudinal objects of single length in a continuous filter rod may contain a rotating positioning disk having a horizontal axis, while the positioning disk may contain transport saddles for longitudinal objects of single length.

The positioning unit for placing longitudinal objects of single length into the formed continuous filter rod may contain a longitudinal repelling element for pushing longitudinal objects of single length from the transport seats of the positioning disk.

The positioning unit for placing the single length longitudinal objects into the continuous filter rod may include a rotating pusher element for pushing the single length longitudinal objects from the transport seats of the positioning disk.

The machine may include an adhesive unit for applying adhesive to single length longitudinal objects.

The adhesive block may include an adhesive nozzle that is located on the circumference of the positioning disk.

The longitudinal object of multiple lengths may be in the form of a tube.

The machine according to the present invention provides high quality rods, the quality being due both to the repeatability of the positioning of the tube along the rod, and the central positioning of the tube in the cross section of the rod.

BRIEF DESCRIPTION OF GRAPHICS

The present invention is illustrated by means of illustrative embodiments in drawings in which:

Fig. 1 is a cross section of the filter rod,

Fig. 2 is a cross section of one mouthpiece,

Fig. 3 is a longitudinal object of multiple length,

Fig. 4 is a diagram of a filter rod making machine,

Fig. 5 is a diagram of the transport path of single length longitudinal objects,

Fig. 6 is a schematic fragment of a machine for making filter rods,

Fig. 7 is a cross section through the positioning block of the machine shown in FIG. 6,

Fig. 8 is a schematic fragment of a machine for making filter rods,

Fig. 9 is a cross section through the positioning block of the machine shown in FIG. eight,

Fig. 10 is a fragment of a diagram of a machine for making filter rods and

Fig. 11 is a cross section through the positioning block of the machine shown in FIG. ten.

DETAILED DESCRIPTION OF THE INVENTION

An example of a filter rod 1 is shown in cross section in FIG. 1. It contains two longitudinal objects in the form of tubes 2. The tubes 2 are centrally located along the X-axis of the filter rod 1. The tubes 2 are arranged along the X axis so that each filter rod 1 can be cut into two parts along a plane k perpendicular to the X axis, and each of these two parts can be cut along two planes m and n, which are at a distance from each other and from the k plane and which are perpendicular to the X axis. Thus, four mouthpieces 3 can be obtained from one filter rod 1, while the full end 4, as well as the tubular end 5 (Fig. 2), in the cigarette can be directed towards the tobacco rod. Mouthpiece 3 can be used as one of the segments of a multi-segment mouthpiece. Fig. 3 is a diagram of a longitudinal object of multiple lengths, a tube 6 which, during the filter rod manufacturing process, is cut into several tubes 2, which will be referred to here as longitudinal objects 2 of single length, the longitudinal object of multiple lengths 6 being cut along several planes c perpendicular to the longitudinal Z-axis tube 6.

A machine 10 for manufacturing filter rods 1 containing single length longitudinal objects 2 is shown in FIG. 4. The machine comprises a preparation unit 11 for preparing a core of filter fibers, a forming unit 12 for forming a continuous filter rod CR from a core F of filter fibers, a feed unit 13 for feeding longitudinal objects 6 of multiple lengths in a mass flow MF, a cutting unit 14 for cutting longitudinal objects 6 multiple lengths on longitudinal objects 2 single lengths, transfer unit 15 for transferring longitudinal objects 2 single lengths in a stream of longitudinal objects 2 single lengths, positioning unit 16 for placing longitudinal objects 2 single lengths into a continuous filter rod CR, cutting head 17 for cutting formed continuous filter rod CR (which contains filter fibers and longitudinal objects 2 of single length) into individual filter rods 1.

In the preparation block 11 for preparing the strand of filter fibers, the strand F is stretchable both in the transfer direction and in the direction transverse to the transfer direction. The individual fibers of the core F are separated, so that it is possible to form a uniform rod having a circular cross section in the pre-forming unit 18 for forming the filter fiber core F, in which the filter fiber core F is gradually compressed to enable the formation of a continuous rod CR having a circular cross section. section at the outlet of the forming unit 12. The machine includes a wrapper feeding unit 19 for feeding the wrapper P.

A supply unit 13 for supplying longitudinal objects 6 of multiple lengths is positioned above a forming unit 12 for forming a continuous filter rod CR from a strand F of filter fibers. The supply unit 13 comprises a channel 20 adapted to supply longitudinal objects 6 of multiple lengths in the form of a mass flow MF, i.e., a multilayer flow of longitudinal objects 6 of multiple lengths. In addition, the feed unit 13 includes a hopper 21 located directly above the cutter unit 14. The cutter unit 14 includes a multi-lane drum conveyor 22 and a circular knife unit 23. Longitudinal objects 6 of multiple lengths enter the tracks of the drum conveyor 22, and longitudinal objects 2 of single length obtained after cutting are taken from the tracks of this conveyor to form a stream SF of longitudinal objects 2 of single length. Longitudinal objects 2 of single length are transmitted in a stream of longitudinal objects 2 of single length SF along a substantially horizontal passageway 25 (FIG. 5). Longitudinal objects 2 of single length are transferred in groups G by pushers 24, with only one group G being shown in the figure for clarity. 28 of the transfer drum 26. The helical element 27 pushes the single length longitudinal objects 2 during the rotation of the transfer drum 26. The single length longitudinal objects 2 are transferred from the transfer unit 15 to the positioning unit 16 directly or by means of a separating unit 29. The purpose of the positioning unit 16 is to place the longitudinal objects 2 single length inside formed continuous, having a cylindrical shape, strands F of acetate fibers, while the longitudinal objects 2 single length are positioned by means of a positioning disk 30 with transport saddles 31. and SF may be positioned tangentially to the positioning disk 30. The placement of the single length longitudinal objects 2 is performed when the initial fiber spinning occurs, sufficiently free so that when the single length longitudinal object 2 is inserted, the fibers of the strand F diverge and surround this object during subsequent formation of the fiber strand F, so that a uniform density of the filter material can be obtained around said object. The density of the filter fiber strand F (at the cross section of the strand) at this stage is sufficiently low and uniform to achieve precise central positioning of the single length longitudinal object 2 in the filter fiber strand F by the positioning disc 30 in the continuous rod CR. The conveying saddles 31 can be formed by means of the pushers 32 on the circumference 33. The rotational movement of the positioning disc 30 determining the position of the single length longitudinal objects 2 is synchronized with the transfer of the wrapper P and the filter fiber strand F, so the longitudinal arrangement of the single length longitudinal objects 2 in the formed continuous rod CR is repeatable and is set with high accuracy. In the embodiment shown, the positioning disk 30 has a horizontal axis Y of rotation. The positioning block 16 for accommodating longitudinal objects 2 of single length in the filter rod comprises a longitudinal pusher element 34 shown in cross section in FIG. 7 to eject single length longitudinal objects 2 from the transport seats 31 of the positioning disc 30 during the rotation of the disc. The fixed pusher elements 34, 34' can be replaced by rotatably mounted pusher elements 37, 37', such as, for example, the disks shown in FIG. 8 and shown in cross section in FIG. 9. The purpose of the fixed pusher elements 34, 34', as well as the rotatably mounted pusher elements 37, 37', is to provide a central positioning of the longitudinal objects 2 of single length in the cross section of the continuous rod CR, since the central positioning is established for the entire length of the inserted object . The transport saddle 31' may be in the form of a cylindrical groove with a diameter corresponding to the diameter of the longitudinal object 2 of single length. The single length longitudinal objects 2 can be held by means of the arc guide 38. Alternatively or additionally, the single length longitudinal objects 2 can be held in the transport saddles 31' by means of a negative pressure supplied through the channels 39.

On the circumference 33 of the positioning disc 30 is located an adhesive block 35 adapted to apply adhesive to longitudinal objects 2 of single length. The adhesive block may have a nozzle 36 which delivers adhesive in a cyclic pulse manner. Through the use of adhesive, the single-length longitudinal object 2 is fixedly attached to the fibers of the continuous filter rod CR being formed.

Fig. 10 is a diagram of a part of the machine comprising a positioning block 16' with transport seats 31' located peripherally by projections 40 on a circumference 33' of the positioning disc 30'. Each transport saddle 31' has two protrusions 40 which define a single length longitudinal object 2 located in the transport saddle 31' on both sides. This solution makes it easier to obtain a uniform longitudinal arrangement of the single length longitudinal objects 2 in the continuous rod CR, since the single length longitudinal object 2 is positioned on both sides. The longitudinal object 2 of single length is fed into the transport saddle 31' from above by means of a separating block 29. The longitudinal object 2 of single length moves in the transport saddle 31', while outside it is held by means of a guide 38' having an inner guide surface 41 corresponding to the diameter of the longitudinal object 2 single length (Fig. 11). Guides can be of any shape. Lateral guides 42, 42' can be implemented additionally, as indicated by dotted lines. Fig. 11 also shows two adhesive blocks 35' which supply adhesive to the outer surface of the longitudinal object 2 of single length. Alternatively, the adhesive block can be positioned on only one side of the transport path for these objects.

Claims (19)

1. Machine for the manufacture of filter rods (1) in the tobacco industry, and the filter rods (1) contain longitudinal objects (2) of single length, while the specified machine contains: - preparatory block (11) for preparing the strand (F) of filter fibers; - a forming block (12) for forming a continuous filter rod (CR) from a strand (F) of filter fibers; - feed unit (13) for feeding longitudinal objects (6) of multiple lengths; - cutting block (14) for cutting longitudinal objects (6) of multiple lengths into longitudinal objects (2) of single length; - transfer unit (15) for transferring longitudinal objects (2) of single length; - a positioning block (16) for placing longitudinal objects (2) of single length in a continuous rod (CR) of the filter during its formation; - a cutting head (17) for cutting the formed continuous filter rod (CR), which contains filter fibers and longitudinal objects (2) of single length, into individual filter rods (1); characterized in that - a cutting unit (14) for cutting longitudinal objects (6) of multiple lengths into longitudinal objects (2) of single length contains a drum conveyor (22) with a plurality of tracks, containing a plurality of tracks located on the periphery of the drum conveyor (22) with a plurality of tracks, with in this case, each track is made parallel to the rest of the tracks and to the axis of rotation of the drum conveyor (22) with a plurality of tracks for receiving longitudinal objects (6) of multiple lengths in the tracks, and the block (23) of the circular knife, while the cutting block (14) is made with the possibility of cutting longitudinal objects (6) of multiple lengths during their transportation on a drum conveyor (22) with multiple tracks; and at the same time, the positioning block (16) for placing longitudinal objects (2) of single length in the continuous rod (CR) of the filter during its formation contains a pair of fixed longitudinal repulsive elements (34, 34') located on both sides of the positioning disk (30) for ejection of longitudinal objects (2) of single length from the transport seats (31) of the positioning disc (30). 2. A machine according to claim 1, characterized in that the supply unit (13) for supplying longitudinal objects (6) of multiple lengths comprises a channel (20) adapted to supply longitudinal objects (6) of multiple lengths in the form of a mass flow (MF). 3. The machine according to any one of paragraphs. 1, 2, characterized in that the transmission unit (15) is adapted to transmit longitudinal objects (2) of single length in the form of a stream (SF) of longitudinal objects (2) of single length through the channel (25). 4. Machine according to any one of paragraphs. 1-3, characterized in that the transfer unit (15) for transferring longitudinal objects (2) of single length comprises a transfer drum (26) having a helical element (27) on its side surface (28). 5. Machine according to any one of paragraphs. 1-4, characterized in that the separating block (29) is located at the end of the channel (25) and is adapted to receive longitudinal objects (2) of single length and transfer longitudinal objects (2) of single length, one by one, to the positioning block (16) . 6. Machine according to any one of paragraphs. 1-5, characterized in that the positioning block (16) for placing longitudinal objects (2) of single length in a continuous rod (CR) of the filter contains a rotating positioning disk (30) having a horizontal axis (Y), while the positioning disk (30 ) contains transport saddles (31) for longitudinal objects (2) of single length. 7. Machine according to any one of paragraphs. 1-6, characterized in that it contains an adhesive block (35) for supplying glue to longitudinal objects (2) of single length. 8. Machine according to any one of paragraphs. 1-7, characterized in that the nozzle (36) for supplying glue is located on the circumference (33) of the positioning disc (30). 9. Machine according to any one of paragraphs. 1-8, characterized in that the longitudinal object (6) of multiple lengths is in the form of a tube.

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