EP1262121A2 - Method and device for manufacturing a brush - Google Patents

Abstract

To produce a brush, and especially a toothbrush, a strand (4) of a single filament or a filament bundle is drawn off a bobbin (2) to a cutter (12), where a given length is severed. The cut filaments are carried by an air stream to be fitted to the brush carrier. The cut length is carried through a guide channel (16) to at least one holding channel (22), preferably at the perforated field plate (6) covering the injection mold, to form the toothbrush body.

Description

The present invention relates to a method for manufacturing a brush, in particular Toothbrush in which a strand of a single filament or a bundle of bristles is unwound from a spool and is guided past a cutting device in which a predetermined length of the strand is cut from this, and in which the length piece is connected to a bristle carrier. Such a process is known, for example, from US Pat. No. 2,643,158.

In the previously known method, several strands of filament bundles are made simultaneously unwound from coils and fed to a so-called perforated field plate, which later to complete an injection mold. Peeling each single strand from the spool and inserting the strand into the perforated field plate is done by mechanical clamping of each individual strand. A feed device has a stationary clamping device and a movable one for each strand Clamping device on. The movable clamping device is placed on the stationary clamping device moved. The stationary clamping device is effective, i.e. the strand is being held. Then the fixed clamp is released and the movable one Clamp switched on. The movable clamping device is fixed by the Clamping device moved away in the conveying direction. It will do both Strand material unwound from the spool as well as the front free end of the strand inserted in the perforated field plate.

A similar device that also touches the supplied strands is, for example known from US-PS 3,408,112. From DE-OS-25 52 213 and for example DE-OS-28 49 510 it is known to drive the strands between two To guide and advance thrust rollers. Here there is against the former Solves the problem of slippage between the strand and the drive rollers. The one you want Feed of the strand is not reliably achieved.

In both of the above methods, the strand is behind its front, gripped free end or clamped and moved forward by this clamping, so that special care must be taken when threading the strand to prevent it from buckling To prevent single filament or individual filaments of a filament bundle. On such kinking of the filaments leads to an impairment of the process. In particular at today's high processing speeds, there is a high scrap and sometimes to the standstill of the entire manufacturing process.

In addition, the conveyor devices known from the prior art to unwind and forward the strand for later connection to it a bristle carrier a design inertia. This will make the maximum possible processing speed limited. The mechanical parts are over it lavishly constructed and maintenance-intensive.

The present invention is based on the problem of a method for producing it to specify a brush of the type mentioned, which is a higher productivity allows. In addition, the present invention addresses the problem of a to specify suitable device for performing the method, which compared to the known devices is simpler.

To solve the procedural problem with the present invention further developed method in such a way that the unwound from the coil Strand and / or the length after being cut to length by an air flow is driven in the direction of conveyance.

In the method according to the invention, first the strand of that on the spool wound continuous material separated. Only then is the length section conveyed. Here, no conveyor acts directly on the peripheral surface of the Strand. Rather, the length is made contact-free by an air flow promoted, which flows in the direction of conveyance. With the air flow can be essential higher speeds can be achieved when transporting the length, especially since this is no longer connected to the reel goods during transport. Furthermore the air flow through valves can be very quickly effective. The one from the State of the art known design-related inertia of the conveyor is eliminated. Furthermore, in the process according to the invention there is a kinking of individual filaments prevented. Since there is no clamping of the filaments, the filaments become not also promoted against resistance. It has also been shown that the Filaments get stuck at a possible resistance, but then together find their way with the air flow.

In combination with this procedure or alternatively to achieve the v.g. Advantages of the endless strand can also be conveyed via a force in the conveying direction, which is generated by an air flow. The speed of this alternative according to the invention Proposal can be further increased by driving the coil is rotated to keep a partial length of the strand ready by the air flow can be fed towards the cutting device without the force required to turn the coil is also applied by the air flow must become.

In a preferred development of the method according to the invention, the length piece in a guide channel to a plate having holding channels, preferably a perforated field plate covering a mold cavity of an injection mold and introduced into one of the holding channels by the air flow. Following that the length pieces introduced into the perforated field plate only together with the perforated field plate moves. In other words, the length is conveyed in its critical phase, i.e. before the recording in a holding channel of the perforated field plate exclusively through the air flow. It has been shown that the guide channel and the holding channel can have a not inconsiderable angular offset without that a kink or when inserting the length into the respective holding channel There is a risk of getting caught. The brush prepared in this way can have different inclinations Bristle bundles, sometimes with intersecting bristle bundles.

In a further preferred embodiment of the method according to the invention is used to cut the length of the length of the strand with its front face against hit a stop surface and then cut the length to length. This ensures that all of the filaments, especially in a bundle strand of the strand are cut to the same length.

This development of the method can then be carried out particularly effectively, if the stop surface after cutting off the length piece essentially moved transversely to its longitudinal axis and one adjacent to the stop surface arranged passage opening is arranged in alignment with the length piece, wherein the length piece through the passage opening for attachment to the bristle carrier is forwarded. This procedure allows a high output with more reliable Adherence to the desired length of the length.

In a further preferred embodiment of the present invention, the usage-side ends of the individual filaments of a filament bundle in one of one flat surface deviating envelope surface arranged in a simple manner. At this Further development, the length piece is axially displaced and through the passage opening the filament bundle in the longitudinal direction before reaching an end position in which the rear Exceeds the passage opening at the end of the length by axial displacement the filaments are contoured against each other.

The preparation of those cut to length and forwarded in this way takes place in a manner known per se Filaments preferably in that the rear end of the length piece, which extends above the passage opening, if necessary after reaching the end position is melted after cutting to size. This will make the single filament or all the filaments of a strand for later attachment to a bristle carrier prepared by extrusion coating with a plastic component.

According to a further preferred embodiment of the present invention the front ends of the continuous material wound on the spool thereby into one Defined position brought that the strand supplied by the coil when conveying the Length piece is pressed against the cutting device. This defines Initial conditions created before the strand advanced to form a defined one Cut to length and finally cut from the continuous material becomes.

The method according to the invention can thereby be further accelerated and simplified, that an air flow is also circumferential for unwinding the strand from the spool is led past the strand. After that, not only will it feed the Endless material to the cutting device or to forward the cut length, but also to unwind the continuous material from the spool an air flow used.

To achieve the device object of the above object, the present invention proposed a device known per se from the prior art for the production of a brush, in particular a toothbrush with at least one wound up A strand of a bristle filament or a bundle of filaments Coil, a first guide device with an unwind guide channel to each Strand, a second guide device arranged downstream of the first guide device, which has a guide channel aligned with the unwinding guide channel, one blade cutting the length of the fed strand and one on the strand pulling conveyor for unwinding the strand from the spool to further develop that a pressure source or sink is provided, which with the Unwinding guide channel and / or the guide channel communicates and which in the Unwinding guide channel or the guide channel in the conveying direction of the strand acting air flow generated. In the embodiment of the device according to the invention can wholly or partially mechanical clamping on the strand Means are dispensed with, the bristles for attachment to the brush body grab and promote. The inventive device for producing a Brush, in particular a toothbrush, is thus opposite to those mentioned in the introduction Devices significantly simplified and less prone to failure.

The second guide device preferably has an on the outer peripheral surface of the strand acting clamping device, so that by the second guide device guided strand clamped according to any feed path and in the guide device can be determined. This allows lengths to be different Set length in a simple way.

Alternatively or in combination with such a clamping direction can preferably a stop surface cooperating with the front end of the strand is provided be subordinate to the second guide device and in one of the Length of a cut length corresponding distance to the blade is arranged. Such a stop is preferable if all or almost all Lengths of the bristles to be formed on the brush have an identical length to have.

Alternatively, a stop can also be provided, which is in relation to the longitudinal axis the lengths are variable. This allows the length of each individual piece of length can be customized.

The device according to the invention is preferably particularly simple in that that the abovementioned stop surface on a mold cavity of an injection mold covering perforated field plate is formed. The stop can be used instead of a perforated field plate also be provided on an intermediate plate, which has at least one bore to accommodate the cut length. This intermediate plate has at least one, preferably several bores for receiving the length piece. These holes are designed so that the lengths are easier in these holes let bring in. From the holes, the pieces of length generated to the Pass the perforated field plate. For this purpose, the intermediate plate is preferably sent to a transfer station spent where the perforated field plate is also located the intermediate plate are in a further preferred embodiment of the invention Device in a direction substantially perpendicular to the longitudinal extent of the strand movable. Between the cutting of individual lengths can thus the perforated field plate or the intermediate plate at a distance from the cutting device to be changed. Length pieces of different lengths are generated. Alternatively, on the side of the perforated field plate facing away from the guide device or a fixed, preferably movable stop is provided for the intermediate plate his. In this development, the length piece is only inserted into the perforated field plate or intermediate plate and stops on the movable stop of the Ended strand cut.

Further details, advantages and features of the present invention result from the following description of an embodiment in connection with the Drawing. In the drawing is a schematic representation of an embodiment a device for producing a toothbrush shown.

The embodiment shown in the drawing is used for cutting and feeding of a strand 4 of a strand 4 stored on a schematically indicated coil 2 Filament bundle. From this coil 2, the strand 4 is into a perforated field plate 6 previous cutting introduced. The device has a first guide device 8, which has an unwind guide channel 10. In this unwind guide channel 10 the endless strand 4 is introduced. In the conveying direction behind the first guide device 8, a movable blade 12 is arranged. This is located downstream second guide device 14, which is aligned with the unwinding guide channel 10 Guide channel 16 has. Is movable approximately perpendicular to the guide channel 16 a clamp 18, which becomes a reciprocating piston of a double-acting pneumatic Printing cylinder 20 extended. This pressure cylinder 20 is with the second guide device 14 connected. Adjacent to the front face of the second guide device 14, the perforated field plate 6 is held. This has several holding channels 22 for receiving bundles of bristles and can be in a direction perpendicular to the Longitudinal extension of the second guide device can be moved.

The unwinding guide channel 10 does not communicate with one via a pressure line 24 shown pressure source. In the same way, the pressure source is via a pressure line 26 connected to the guide channel 16. The two pressure lines 24 and 26 open into an annular channel surrounding the channels 10, 16, which the air flow essentially parallel to the longitudinal extent of the channels 10, 16 and in the conveying direction of strand 4 aligns. In the exemplary embodiment shown, in the channels 10, 16 generated a directional air flow by overpressure.

The strand 4 is initially in the first guide device via this directed air flow 8 promoted towards the perforated field plate 6. The strand 4 occurs with his front free end in the second guide device 14. One also works there Air flow at least circumferentially on the strand and conveys this further in the direction onto the perforated field plate 6. This perforated field plate 6 is initially arranged in such a way that none of the inlet openings arranged adjacent to the second guide device of the holding channels 22 is aligned with the guide channel 16. The front end of the Strands 4 therefore first abuts against a stop surface formed on the perforated field plate 6 28. This sets the desired length of a length. Thereafter, the blade 12 is cut at right angles to the longitudinal direction of the Stranges a length piece 30 held in the second guide means Endless strand 4 from. In this separation process, there is preferably at least the pressure line 24 separated from the pressure source by a controllable valve.

The perforated field plate 6 is now displaced relative to the second guide device 14 and an inlet opening of the holding channel 22 is aligned with the guide channel 16. The transfer takes place due to the air flow acting in the guide channel of the length piece 30 to the holding channel 22. At the same time, the pressure source first guide device 8 can be switched to the supplied endless strand 14 to press with all its filaments against the surface of the blade 12. The perforated field plate 6 is again displaced relative to the second guide device 14, around the stop surface 28 or another, adjacent to an inlet opening another holding channel 22 formed stop surface in alignment with the guide channel 16 to arrange. The blade 12 is in its original position shown in Figure 1 reset to the passage from the first guide device 8 to the second Release guide device 14. The endless strand 4 shoots again against the stop surface. The procedure described above is repeated, only with the difference that that now another holding channel is flush with its inlet opening the guide channel is arranged and equipped with another length.

If a length piece with a shorter length is to be produced, the Clamping punch 18 circumferentially the strand inserted into the guide device terminals. Alternatively, the guide channel 16 can also be completely different penetrating slide against which the front end of the endless strand can be provided encounters. In this case, a contact surface is created by one of the sliders educated.

In an alternative embodiment, the contact surface behind the perforated field plate 6 may be provided. Such a stop surface is preferably in the longitudinal direction of the supplied endless strand 4 displaceable. In this case, the endless strand first pushed through the holding channel 22 of the perforated field plate until the the front face hits the stop. Then the length is cut off 30. The perforated field plate is moved to another holding channel again to be aligned with the fed endless strand 4. Before further feeding of the endless strand is the distance between the stop and the perforated field plate changed to the length of the length piece now to be cut compared to to change the previously created length.

As an alternative to the exemplary embodiment shown in the figure, instead of one Perforated field plate, an intermediate plate can be provided, which at least one, preferably has several holes for receiving the lengths. These holes are in One filled with lengths. The intermediate plate then becomes a transfer station brought where the holes formed on the intermediate plate to cover can be brought with the respective holding channels of a perforated field plate. The lengths are then pushed out into the holding channels. The holes in the intermediate plate are preferably larger than the bores of the holding channels. hereby the bristle bundles can be moved more easily from the guide device onto the intermediate plate transfer.

In the embodiment shown, the endless strand 4 is in the circumferential direction of the coil 2 unwound. With regard to a twisting of the endless strand in its front, pulled area, which facilitates easier handling of the strand, it may be preferable to extend the endless strand 4 tangentially over the head of to unwind the spool 2. The deduction of the endless strand 4 from the spool 2 takes place here essentially in the direction of the central longitudinal axis of the coil 2.

LIST OF REFERENCE NUMBERS

2

Kitchen sink

4

continuous strand

6

Hole field plate

8th

first management facility

10

Abwickelführungskanal

12

blade

14

second guide device

16

guide channel

18

terminal temple

20

double acting pressure cylinder

22

retaining channel

24

pressure line

26

pressure line

28

stop surface

30

length piece

Claims (14)

A method for producing a brush, in particular a toothbrush, in which a strand of a single filament or a bundle of filaments is unwound from a spool and passed past a cutting device in which a predetermined length of the strand is cut off by the latter, and in which the length is connected to a bristle carrier becomes,
characterized in that the strand unwound from the coil and / or the length piece is cut to length by an air flow in the conveying direction. A method according to claim 1, characterized in that the length piece is guided in a guide channel to a plate having at least one holding channel, preferably a perforated field plate covering a mold cavity of an injection mold, and is introduced by the air flow into the holding channel formed on the plate. A method according to claim 1, characterized in that the length piece is deflected when it is introduced into the perforated field plate. Method according to one of the preceding claims, characterized in that the length of the length of the strand is pushed with its front end face against a stop surface and then the length is cut to length. A method according to claim 4, characterized in that after cutting off the length piece, the stop surface moves substantially transversely to its longitudinal axis and that a passage opening arranged adjacent to the stop surface is aligned with the length piece and the length piece is passed on through the passage opening for attachment to the bristle carrier , A method according to claim 4 or 5, characterized in that the length piece is axially displaced through the passage opening and that the filament bundle of the length piece is contoured against one another by axially shifting the filaments before reaching an end position in which the rear end of the length piece projects beyond the passage opening. A method according to claim 6, characterized in that the rear end of the length piece is melted after reaching the end position, if necessary after prior cutting. Method according to one of the preceding claims, characterized in that the strand fed from the coil is pressed against the cutting device before a length is cut to length. Device for producing a brush, in particular a toothbrush, with at least one spool (2) that has a wound strand of bristle filament or a filament bundle, a first guide device (8) with an unwinding guide channel (10) for each strand, one of the first guide directions (8) downstream second guide device (14) which has a guide channel (16) aligned with the unwinding guide channel (10), a blade (12) cutting the length of the supplied strand (4) and a conveyor device (24) pulling on the strand (4) for unwinding the strand (4) from the spool (2),
marked by
a pressure source or sink which communicates with the unwinding guide channel (10) and / or the guide channel (16) and which generates an air flow acting in the conveying direction of the strand (4) in the unwinding guide channel (10) or the guide channel (16). Apparatus according to claim 9, characterized in that at least the second guide device (14) comprises a clamping device (18, 20) acting on the outer peripheral surface of the strand (4). Apparatus according to claim 9 or 10, characterized by a stop surface (28) which interacts with the front end of the strand (4) and which is arranged downstream of the second guide device (14) and at a distance from the blade (30) corresponding to the length of a cut-off length (30). 12) is arranged. Device according to one of claims 9 to 11, characterized in that the stop surface for adjusting the length of the cut length piece is movable in the longitudinal direction of the bristle filaments. Device according to one of claims 9 to 12, characterized in that the stop surface (28) is formed on a perforated field plate (6) covering a mold cavity of an injection mold or an intermediate plate, which has at least one receiving bore for receiving the length-cut length piece and which of a tamping station, in which the bore is aligned with the guide channel (16), can be moved into a transfer station, in which the bore is aligned with a bore of the perforated field plate. Device according to claims 12, characterized in that the perforated field plate (6) is movable in a direction substantially perpendicular to the longitudinal extension of the strand (4).

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