Filter manufacturing machine

Abstract

A filter manufacturing machine includes a feed path (7) configured to continuously feed a sheet material containing filter fibers and provided with a first plasticizer addition unit (9); a forming device (3) connected to a terminating end of the feed path (7) and configured to form the sheet material (6) into a hollow rod-shaped continuous filter body (11), the forming device including a tubular forming path for forming the sheet material (6) into the continuous filter body (11), a heat treating section for heating the sheet material, and a second plasticizer addition unit (14) arranged near the inlet of the tubular forming path; and a wrapping device (4) configured to receive the continuous filter body (11) delivered from the forming device (3) and wrap the continuous filter body in a wrapper to form a filter rod (19).

Claims

1. A filter manufacturing apparatus comprising: a feed path configured to continuously feed a sheet material containing filter fibers; a first plasticizer addition unit arranged in the feed path and configured to add a first plasticizer to the sheet material on the feed path; a forming device connected to a terminating end of the feed path and configured to form the sheet material into a hollow, rod-shaped continuous filter body, the forming device including: a tubular forming tube for directing the sheet material to pass therethrough while narrowing the sheet material to form the hollow, rod-shaped continuous filter body; a heat treating section provided in the tubular forming tube and configured to heat the hollow, rod-shaped continuous filter body while it passes through the tubular forming tube; and a spray nozzle arranged upstream of an inlet of the tubular forming tube and configured to introduce a second plasticizer radially from an axis of the tubular forming tube to add the second plasticizer to the sheet material; a wrapping device configured to receive the hollow, rod-shaped continuous filter body delivered from the forming device, wrapping the hollow, rod-shaped continuous filter body in a wrapper to form a filter rod, and cutting the filter rod to obtain filter plugs; an inlet section of the tubular forming tube having a diameter gradually increasing toward the inlet of the tubular forming tube; a mandrel arranged inside the tubular forming tube, the mandrel extending through the tubular forming tube and cooperating with the tubular forming tube to define a tubular forming path; and a heat-supplying hole is formed in a peripheral wall of the heat-treating section to supply heat to the sheet material from outside of the tubular forming tube, wherein a first end portion of the mandrel is located more downstream from the heat-supplying hole, and wherein the spray nozzle is connected to a second end of the mandrel and is located upstream of the heat-supplying hole, the spray nozzle spraying the second plasticizer only on that portion of the sheet material which is adapted to come into contact with the mandrel.

2. The filter manufacturing apparatus according to claim 1, wherein the second plasticizer is sprayed forward from the spray nozzle with reference to the direction in which the sheet material advances.

3. The filter manufacturing apparatus according to claim 1, wherein: the mandrel includes a plasticizer flow channel axially extending therethrough and is provided with a plurality of apertures to allow the second plasticizer to be introduced to an internal surface of the hollow rod-shaped continuous filter body.

4. The filter manufacturing apparatus according to claim 1, wherein the spray nozzle sprays plasticizer in a radial direction.

5. A filter manufacturing apparatus comprising: a conveying system for introducing a sheet material containing filter fibers to a first plasticizer addition unit for introducing a first plasticizer to the sheet material, a forming device provided after the first plasticizer addition unit for forming the sheet material into a rod-shaped continuous filter body, said forming device including a forming tube and a mandrel axially aligned with and extending through the forming tube for forming an internal, hollow tubular path within the rod-shaped continuous filter body, said mandrel provided with a second plasticizer addition unit upstream of the forming tube adapted to introduce a second plasticizer to a surface of said internal, hollow tubular path, as it is being formed within said rod-shaped continuous filter body, a heat-treatment means for introducing heat to the forming tube immediately downstream of said second plasticizer addition unit, and a wrapping device configured to receive the rod-shaped continuous filter body delivered from the forming device, wrapping the rod-shaped continuous filter body to form a filter rod, and cutting the filter rod to obtain filter plugs, wherein the application of the second plasticizer to the surface of said internal, hollow tubular path as it is being formed prevents tow from projecting from the surface of the internal, hollow, tubular path and also strengthens the rod-shaped continuous filter body.

6. The filter manufacturing apparatus of claim 5, wherein the second plasticizer unit is a spray device which applies the second plasticizer to that portion of the sheet material which will come into contact with the mandrel, before the sheet material is advanced into the forming tube.

7. The filter manufacturing apparatus of claim 6, wherein the forming tube is provided with an expanded inlet portion which tapers toward an outlet of the forming tube.

8. The filter manufacturing apparatus of claim 5, wherein the mandrel contains an axially extending flow channel provided with a plurality of apertures to allow the second plasticizer to be introduced to the surface of the internal, hollow tubular path.

9. The filter manufacturing apparatus of claim 6, wherein the spray device is configured such that the second plasticizer is sprayed in the forward direction of the forming tube in which the rod-shaped continuous filter body is advancing, whereby the second plasticizer is reliably added to that portion which is to form the surface of the internal, hollow, tubular path.

10. The filter manufacturing apparatus of claim 9, wherein the heat-treatment means is a channel obliquely formed in the forming tube with respect to the forward direction of the forming tube.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 schematically illustrates a filter manufacturing machine according to the present invention.

(2) FIG. 2 is a schematic enlarged view of a forming device.

(3) FIG. 3 is a schematic sectional view of another exemplary mandrel.

MODE OF CARRYING OUT THE INVENTION

(4) A filter manufacturing machine 1 illustrated in FIG. 1 includes a feed path 7, a forming device 3, and a wrapping device 4. The feed path 7 continuously conveys filter fibers (tow) 5 and a sheet material 6 containing the filter fibers 5. A storage vessel 8 storing the filter fibers 5, for example, cellulose acetate fibers, is arranged at a starting end of the feed path 7. The feed path 7 includes a plurality of (in the figure, two) guide rollers 10 and is connected to the forming device 3, described later. Also, the feed path 7 is provided with a first plasticizer addition unit 9. The first plasticizer addition unit 9 includes a conventionally known banding jet, a pair of pretension rollers and a pair of brooming rollers (none of which is shown), whereby the filter fibers 5 are opened and then formed into a sheet material. Further, the first plasticizer addition unit 9 is provided with a conventionally known sprayer (not shown) for adding a first plasticizer to the sheet material. As a result, the sheet material 6 is hardened to some extent.

(5) The feed path 7 is connected at its terminating end to the forming device 3 for forming the sheet material 6 into a hollow rod-shaped continuous filter body 11. As is clear from FIG. 2, the forming device 3 includes a forming tube 12, a mandrel 13, and a second plasticizer addition unit 14. The forming tube 12 is in the form of a hollow cylinder and allows the sheet material 6 to pass therethrough (in a direction indicated by arrow F in FIG. 2) while narrowing the sheet material 6. The sheet material 6 passes through a tubular forming path 2 in the forming tube 12. To stabilize the entry of the sheet material 6, the forming tube 12 may be configured such that an inlet section thereof has a gradually increasing inner diameter. Specifically, the tubular forming path 2 may have a rounded configuration such that the diameter thereof gradually increases toward the inlet. This makes it easier for the sheet material 6 to enter the tubular forming path 2, thereby improving productivity. A separate trumpet guide or the like may be used in order to obtain a similar effect. The mandrel 13 is arranged in alignment with the axis of the forming tube 12 and serves to make a through hole 15 in the continuous filter body 11. That is, the rod of filter fibers that has passed through the forming tube 12 has the through hole 15 corresponding in shape to the mandrel 13. The sheet material 6 is heat-treated in the forming tube 12 to be formed into the continuous filter body 11. The heat treatment is carried out by a heat treating section 17. In the illustrated example, the heat treating section 17 includes holes 18 formed through the peripheral wall of the forming tube 12, and steam is introduced through the holes 18 into the forming tube 12 (in directions indicated by arrows I in FIG. 2). Instead of steam, microwave or hot air may be used, or a different heat source such as electrically heated wire may be used.

(6) The second plasticizer addition unit 14 is arranged near the inlet of the forming tube 12 and spouts a second plasticizer radially (in directions indicated by arrows S in FIG. 2) from the axis of the forming tube 12. Thus, the forming tube 12 is associated with the second plasticizer addition unit 14, and since the second plasticizer is spouted radially outward from the axis of the forming tube 12, the second plasticizer can be locally applied only to the inside of the sheet material 6 being fed into the forming tube 12. That is, the second plasticizer is added only to that portion of the sheet material 6 which later constitutes the surface of the through hole 15 of the continuous filter body 11 with the aid of the mandrel 13. Accordingly, only the surface of the through hole 15 of the continuous filter body 11 can be appropriately hardened, making it possible to reliably prevent the filter fibers from projecting from the surface of the through hole 15. Also, since the plasticizer is added only locally, an overall amount of usage of the plasticizer can be reduced, thus contributing to saving of resources. The continuous filter body 11 is thereafter wrapped in wrapping paper to obtain a filter rod, as described later, and when the filter rod is cut into filter plugs, the through hole 15 can be reliably prevented from being crushed at the cut ends of the filter plugs. In this manner, the second plasticizer addition unit 14 for adding the second plasticizer to the sheet material 6 is provided separately from the first plasticizer addition unit 9 for adding the first plasticizer, and it is therefore possible to locally add the plasticizer only to that portion of the sheet material 6 which needs to be increased in hardness. Also, dissolution of the filter fibers, which occurs when a large amount of plasticizer is used, can be prevented. The second plasticizer is added to the sheet material before the sheet material passes the heat treating section 17.

(7) The mandrel 13 has one end portion located near the inlet of the forming tube 12, and a spray nozzle 16 of the second plasticizer addition unit 14 is attached to that end portion of the mandrel 13. The second plasticizer is sprayed from the spray nozzle 16. Since the spray nozzle 16 is attached to the end portion of the mandrel 13, the spray nozzle 16 and the mandrel 13 form a unit and can be handled with ease. Also, since the mandrel 13 is aligned with the axis of the forming tube 12, the second plasticizer sprayed from the spray nozzle 16 attached to the mandrel 13 can be directed accurately from the axis of the forming tube 12 outward. The second plasticizer can therefore be reliably added to the portion which is to form the surface of the through hole 15. Where the spray nozzle 16 is configured such that the second plasticizer is sprayed in a forward direction of the forming tube 12 in which the filter material advances within the forming tube 12, the second plasticizer can be accurately and reliably added to the portion which is to form the surface of the through hole 15 of the hollow continuous filter body. Also, where the direction of spraying the plasticizer is restricted to the forward direction of the forming tube 12, the amount of usage of the plasticizer can be further reduced.

(8) The second plasticizer addition unit 14 may alternatively be configured as illustrated in FIG. 3. Specifically, a hollow mandrel 13 is used, and the second plasticizer is introduced into the mandrel 13 so as to be spouted from jet holes 24 formed through a peripheral wall 23 of the mandrel 13, in directions indicated by arrows in FIG. 3. Since the second plasticizer is spouted directly from the mandrel 13, it is possible to add the second plasticizer efficiently and locally to the portion which is to form the surface of the through hole of the hollow filter.

(9) The wrapping device 4 includes a rod forming section 20, where the continuous filter body 11 is cut to a predetermined length on a table 25, the resulting filter section is wrapped in wrapped paper (not shown) to form a filter rod 19, and the filter rod 19 is cut by a cutter (not shown) to obtain filter plugs 21. These steps are executed by using equipment conventionally known in the art. The filter plugs 21 are then supplied to a subsequent process (in a direction indicated by arrow A in FIG. 1) by a garniture belt 22.

EXPLANATION OF REFERENCE SIGNS

(10) 1 filter manufacturing machine 2 tubular forming path 3 forming device 4 wrapping device 5 filter fiber 6 sheet material 7 feed path 8 storage vessel 9 first plasticizer addition unit 10 guide roller 11 continuous filter body 12 forming tube 13 mandrel 14 second plasticizer addition unit 15 through hole 16 spray nozzle 17 heat treating section 18 hole 19 filter rod 20 rod forming section 21 filter plug 22 garniture belt 23 peripheral wall 24 jet hole