METHOD FOR PRODUCING BRISTLE PRODUCTS, AND BRISTLE PRODUCT PRODUCTION DEVICE

Abstract

A method for producing bristle products (1), in particular brushes, having a bristle carrier (2) and a bristle set (3) of bristle filaments (4), wherein a bristle carrier (2) and fastening-proximal ends (5) of bristle filaments (4) are connected to one another by a thermal joining process, and the bristle carrier (2), in particular its external contour, is deformed from an initial shape to a target shape by a temperature variation of the bristle carrier (2). A bristle product production device (100) to carry out the method is also provided.

Claims

1. A method for producing bristle products (1) having a bristle carrier (2) and a bristle set (3) of bristle filaments (4), the method comprising: connecting fastening-proximal ends (5) of bristle filaments (4) to the bristle carrier (2) by a thermal joining process; and deforming an external contour of the bristle carrier (2) from an initial shape to a target shape by a temperature variation of the bristle carrier (2).

2. The method as claimed in claim 1, further comprising generating a force for deforming the bristle carrier (2) by the temperature variation of the bristle carrier (2).

3. The method as claimed in claim 1, further comprising at least one of a) heating the bristle carrier (2) and the fastening-proximal ends (5) of the bristle filaments (4), or b) fusing the fastening-proximal ends (5) of the bristle filaments (4), for the connecting of the bristle carrier (2) and the bristle filaments (4) of the bristle set (3) to one another.

4. The method as claimed in claim 1, wherein at least one of a) the deforming of the bristle carrier (2) by the temperature variation takes place after the connecting of the bristle carrier (2) to the bristle filaments (4), or b) the deforming of the bristle carrier (2) includes concavely deforming the bristle carrier (2) by the temperature variation.

5. The method as claimed in claim 1, wherein the thermal joining process comprises a cooling step in which at least one of the bristle filaments (4) or the bristle carrier (2) is cooled.

6. The method as claimed in claim 1, further comprising reducing or dissipating a pre-load in the bristle carrier (2), which is created during production, by the temperature variation of the bristle carrier (2) in the thermal joining process while deforming the bristle carrier (2).

7. The method as claimed in claim 1, wherein the bristle carrier (2) is at least peripherally heated to a temperature above a glass transition temperature thereof.

8. The method as claimed in claim 1, further comprising reducing or dissipating a pre-load in the bristle carrier (2), which is caused by at least one of additives or an admixture in the bristle carrier (2), by the temperature variation of the bristle carrier (2) in the thermal joining process while deforming the bristle carrier (2).

9. The method as claimed in claim 1, wherein the bristle carrier (2) comprises at least two plastic-material components which form different portions of the bristle carrier (2) such that the bristle carrier (2) is deformed differently by the temperature variation in the different portions.

10. The method as claimed in claim 1, wherein the deformation of the bristle carrier (2) is at least in portions at least one of restricted or delayed by a detent (7) by which the bristle filaments (4) are held when connecting to the bristle carrier (2).

11. The method as claimed in claim 1, wherein the deformation of the bristle carrier (2) is predefined by an initial geometry of the bristle carrier (2).

12. The method as claimed in claim 1, wherein at least one of a) the bristle carrier (2) has at least one defined deformation region which has a lower resistance to deformation in comparison to an adjacent region of the bristle carrier (2) and influences the deformation of the bristle carrier (2), or b) the bristle carrier (2) has at least one reinforcement region in which the bristle carrier (2) at least one of has a greater material thickness or is provided with a reinforcement, and the reinforcement region has a greater resistance to deformation than a neighboring region of the bristle carrier (2) and influences the deformation of the bristle carrier (2).

13. The method as claimed in claim 1, further comprising during the deforming, heating a region of the bristle carrier (2) locally to a higher or to a lower temperature than in an adjacent region.

14. The method as claimed in claim 1, further comprising generating a temperature gradient between different portions of the bristle carrier (2) for the deforming of the bristle carrier (2).

15. The method as claimed in claim 1, wherein the deforming includes a targeted deformation of the bristle carrier (2) by at least one of a) using at least one of a predefined cooling time or cooling rate, b) locally cooling the bristle carrier (2), or c) cooling different regions of the bristle carrier (2) using at least one of different temperatures, cooling rates, or cooling times.

16. The method as claimed in claim 1, further comprising holding the bristle carrier (2) by a holder (10) which contacts the bristle carrier (2) by way of a sub-region of an external face (11) thereof, which is adjacent to a bristle set side (6).

17. The method as claimed in claim 1, further comprising holding the bristle carrier (2) by a holder (10) that has a holding contour (12) for holding at least one said bristle carrier (2), which is penetrated by at least one clearance (13) such that the holder (10) contacts the bristle carrier (2) only by way of a sub-region of an external face (11) thereof.

18. The method as claimed in claim 1, wherein the connecting of the bristle carrier (2) and fastening-proximal ends (5) of the bristle filaments (4) of the bristle set (3) to one another includes pressing the bristle carrier (2) and fastening-proximal ends (5) of the bristle filaments (4) of the bristle set (3) against one another with a defined joining force (33).

19. The method as claimed in claim 18, wherein the joining force (33) is determined by at least one of a force measuring device (27), a load cell (28), a compression spring, or a current consumption of an actuating drive (29) by which the bristle carrier (2) and the bristle filaments (4) are pressed against one another.

20. The method as claimed in claim 1, further comprising using a bristle product production device (100) to carry out the method.

21. A bristle product production device (100), comprising: a heating device (14) which is specified to heat fastening-proximal ends (5) of bristle filaments (4) of a bristle set (3) and a bristle carrier (2) to which the bristle filaments (4) of the bristle set (3) are to be connected; and the heating device (14) is adapted to fuse the fastening-proximal ends (5) of the bristle filaments (4) and not the bristle carrier (2).

22. The bristle product production device (100) as claimed in claim 21, wherein the heating device (13) comprises first and second heating surfaces (15, 16), the first heating surface (15) is provided for heating the fastening-proximal ends (5) of the bristle filaments (4) of the bristle set (3) of a bristle product (1) to be produced, and the second heating surface (16) is provided for heating the bristle carrier (2) of the bristle product (1) to be produced.

23. The bristle product production device (100) as claimed in claim 22, wherein the first and second heating surfaces (15, 16) face away from one another.

24. The bristle product production device (100) as claimed in claim 21, further comprising a cooling device (17) for actively cooling the bristle carrier (2).

25. The bristle product production device (100) as claimed in claim 21, further comprising a filament holder (8) for holding the bristle filaments (4) of the bristle set (3), and a profiled counter-holder (18) for profiling the bristle set (3) of a bristle product (1) to be produced.

26. The bristle product production device (100) as claimed in claim 21, further comprising a holder (10) which is adapted to hold at least one said bristle carrier (2) by way of a sub-region of an external face (11) thereof.

27. The bristle product production device (100) as claimed in claim 26, wherein the holder (10) has a holding contour (12) for holding at least one said bristle carrier (2), and the holding contour (12) is at least one of formed on a holding space (19) of the holder (10) or is penetrated by at least one clearance (13).

28. The bristle product production device (100) as claimed in 26, wherein at least one of a) the holder (10) has at least one holding finger (20) which forms at least part of a holding contour (19), or b) the holder (10) has a clearance (13) with at least one recess (21) that faces a holding space (19) for at least one of the bristle carrier (2) or a rear side (9) of a bristle carrier (2) situated in a holding position on the holder (10).

29. The bristle product production device (100) as claimed in claim 27, wherein the holder (10) comprises a gripper and has at least two mutually assigned gripper jaws (22, 23) on which is formed at least part of the holding contour (12).

30. The bristle product production device (100) as claimed in claim 26, further comprising an actuating drive (29) which is specified to press with a defined joining force (33) the bristle carrier (2) against the fastening-proximal ends (5) of the bristle filaments (4) to connect the bristle carrier (2) to the bristle filaments (4).

31. The bristle product production device (100) as claimed in claim 30, further comprising a force measuring device (27) for determining a joining force (33) with which the bristle carrier (2) and fastening-proximal ends (5) of the bristle filaments (4) of the bristle set (3) are pressed against one another.

32. The bristle product production device (100) as claimed in claim 31, wherein the force measuring device (27) is disposed between the actuating drive (29) and the holder (10).

33. The bristle product production device (100) as claimed in claim 30, wherein the actuating drive (29) comprises a pneumatic, hydraulic or electric actuating drive, and the bristle product production device (100) further comprises a control unit (30) for controlling the actuating drive (29) as a function of a measured joining force (33).

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0067] The invention will be described in more detail hereunder with reference to exemplary embodiments, but is not limited to these exemplary embodiments. Further exemplary embodiments are derived by combining the features of individual or of a plurality of claims with one another, and/or by combining individual or a plurality of features of the exemplary embodiments. In the figures:

[0068] FIG. 1 shows a perspective view of a bristle product production device according to the invention, having a holder for a bristle carrier, the holding contour thereof being penetrated by clearances in such a way that a discharge of heat from the bristle carrier in the thermal joining process, caused by mechanical contact between the holder and the bristle carrier, is reduced;

[0069] FIG. 2 shows the detail marked by the circle in FIG. 1 in an enlarged illustration;

[0070] FIG. 3 shows a perspective lateral view of the device shown in FIG. 1;

[0071] FIG. 4 shows the device shown in the preceding figures, having a heating device located in the heating position between the bristle carrier and the bristle filaments when heating the bristle carrier and the fastening-proximal ends of the bristle filaments;

[0072] FIG. 5 shows the situation shown in FIG. 4 in a perspective lateral view;

[0073] FIG. 6 shows the device shown in the preceding figures, having the bristle carrier positioned by the holder of the device in the joining position at the fastening-proximal ends of the bristle filaments;

[0074] FIG. 7 shows the situation shown in FIG. 6 in a perspective lateral view;

[0075] FIG. 8 shows the device shown in the preceding figures, having an activated cooling device for carrying out a cooling step of the thermal joining process;

[0076] FIG. 9 shows the situation shown in FIG. 8 in a perspective lateral view;

[0077] FIG. 10 shows the device shown in the preceding figures, having the bristle carrier still located on the filament holder but already connected to the bristle filaments, wherein the cooling device is still activated for cooling the bristle product thus generated;

[0078] FIG. 11 shows the situation shown in FIG. 10 in a perspective lateral view;

[0079] FIG. 12 shows a perspective lateral view of the bristle product still located on the filament holder of the device;

[0080] FIG. 13 shows a perspective lateral view of the bristle product from FIG. 12, wherein the bristle product has been retrieved from the filament holder by a retrieving device, and the bristle carrier is still not deformed;

[0081] FIG. 14 shows a perspective lateral view of the bristle product from FIG. 13, wherein the bristle carrier has already been somewhat deformed by its temperature variation, presently by its cooling;

[0082] FIG. 15 shows a perspective lateral view of the bristle product from FIG. 14, having the bristle carrier deformed to its target shape;

[0083] FIG. 16 shows a perspective view of a further bristle product production device according to the invention, having a holder for a bristle carrier, the holding contour thereof being penetrated by clearances in such a way that a discharge of heat from the bristle carrier heated in the thermal joining process, caused by mechanical contact between the holder and the bristle carrier, is reduced, wherein the bristle product production device has a force measuring device for determining a joining force with which a bristle carrier disposed on the holder is pressed against fastening-proximal ends of bristle filaments in thermal joining; and

[0084] FIG. 17 shows the bristle product production device shown in FIG. 16 in a perspective lateral view.

DETAILED DESCRIPTION

[0085] All of the figures show at least parts of a bristle product production device which as an entity is denoted by the reference sign 100. The bristle product production device 100 is specified to produce bristle products 1. In the exemplary embodiment shown, the bristle products 1 which can be produced on the bristle product production device 100 are brushes, specifically toothbrushes.

[0086] The bristle product 1 which is able to be produced by the bristle product production device 100 has a bristle carrier 2 and a bristle set 3 of bristle filaments 4. Both the bristle carrier 2 as well as the bristle set 3 of bristle filaments 4 herein consist of a plastics material.

[0087] In the method for producing bristle products 1, which can be carried out on the bristle product production device 100, the bristle carrier 2 and fastening-proximal ends 5 of the bristle filaments 4 are connected to one another by a thermal joining process. In the process, the bristle carrier 2, specifically its external contour, is deformed from an initial shape to a target shape by a temperature variation of the bristle carrier 2. A force for deforming the bristle carrier 2 is generated by the temperature variation of the bristle carrier 2. The deformation of the bristle carrier 2 can thus take place without any mechanical forces directed into the bristle carrier 2.

[0088] For connecting to one another, the bristle carrier 2 and the fastening-proximal ends 5 of the bristle filaments 4 are heated. The fastening-proximal ends 5 of the bristle filaments 4 hereinas opposed to the bristle carrier 2are fused. Subsequently, the bristle carrier 2 and the bristle filaments 4 of the bristle set 3 are connected to one another, as is shown in FIGS. 6 and 7.

[0089] FIGS. 4 and 5 show the situation in which the bristle carrier 2 as well as the fastening-proximal ends 5 of the bristle filaments 4 are heated prior to being connected to one another.

[0090] The bristle carrier 2 is deformed by the temperature variation after the bristle carrier 2 has been connected to the bristle filaments 4. The deformation of the bristle carrier 2 upon connecting the bristle carrier 2 to the bristle filaments 4 is shown in FIGS. 12 to 15. FIG. 15 in particular shows that the bristle carrier 2, specifically its bristle set side 6 in particular, is concavely deformed by the temperature variation.

[0091] In the exemplary embodiment shown in the figures, the method provides that the bristle carrier 2 is deformed automatically by the thermal joining process and by a temperature variation of the bristle carrier 2 caused in the process.

[0092] FIGS. 8 to 11 show that the thermal joining process can comprise a cooling step. The bristle filaments 4 and/or the bristle carrier 2 are actively cooled in the cooling step. On the one hand, cooling can take place in order to faster cure the connection between the bristle filaments 4 and the bristle carrier 2, and on the other hand in order to deform the bristle carrier 2 in a targeted manner, or in order to restrict its deformation, respectively.

[0093] Depending on the embodiment of the method, a bristle carrier 2 which has a pre-load caused by its production, preferably by injection molding, can also be used. The pre-load in this instance can be reduced or dissipated by the temperature variation of the bristle carrier 2 in the thermal joining process while deforming the bristle carrier 2.

[0094] The temperature management in the method can provide that the bristle carrier 2 is at least peripherally heated to a temperature above its glass transition temperature when carrying out the thermal joining process. The material of which the bristle carrier 2 is composed becomes soft when reaching the glass transition temperature, which may favor a reliable connection between the bristle carrier 2 and the bristle filaments 4.

[0095] In one embodiment of the method, it is provided that a bristle carrier 2 which has a pre-load caused by additives and/or an admixture in the bristle carrier 2, such as fibers for example, is used. The pre-load can be reduced or dissipated by the temperature variation of the bristle carrier 2 in the thermal joining process while deforming the bristle carrier 2.

[0096] The bristle carrier 2 which is used in one embodiment of the method can consist of at least two plastics-material components which can form different portions of the bristle carrier 2. The bristle carrier 2 can then deform differently due to the temperature variation in the different portions, in particular when the different portions of the bristle carrier 2 produced from the different plastics-material components react differently to the temperature variation of the bristle carrier 2.

[0097] The deformation of the bristle carrier 2 can at least in portions be restricted or delayed by a detent 7, presently a filament holder 8 of the bristle product production device 100. The detent 7 is provided by the filament holder 8 of the bristle product production device 100 by which the bristle filaments 4 are held when connecting to the bristle carrier 2.

[0098] The deformation of the bristle carrier 2 can also be predefined by an initial geometry of the bristle carrier 2. In this way it is possible, for example, that the bristle carrier 2 is deformed in the initial position, and herein has a pre-load which has been mechanically incorporated into the bristle carrier 2. This pre-load can then be dissipatedsimilar to a stress relief heat treatment, so to speakas a result of which the bristle carrier 2 then changes its initial shape and assumes its target shape.

[0099] The bristle carrier 2 can have at least one defined deformation region which has a lower resistance to deformation in comparison to an adjacent region of the bristle carrier 2 and influences the deformation of the bristle carrier 2. Furthermore, the bristle carrier 2 can have at least one reinforcement region, in particular in which the bristle carrier 2 has a greater material thickness and/or is provided with a reinforcement. The reinforcement region can have a higher resistance to deformation than an adjacent region of the bristle carrier 2 and influence the deformation of the bristle carrier 2.

[0100] In one embodiment of the method, the bristle carrier 2 for deforming can be locally heated to a higher or a lower temperature than in an adjacent region. Owing to the local heating of the bristle carrier 2 to a temperature different than in adjacent regions, the deformation of the bristle carrier 2 can also be controlled in a targeted manner.

[0101] For deforming the bristle carrier 2, a temperature gradient between different portions of the bristle carrier 2, in particular between a bristle set side 6 of the bristle carrier 2 and a rear side 9 of the bristle carrier 2, can be generated. Generating a temperature gradient is achieved, for example, by the cooling step as part of the thermal joining process, which is shown in FIGS. 8 and 9, or 10 and 11, respectively.

[0102] It can be seen in FIGS. 10 and 11 that the rear side 9 of the bristle carrier 2 is actively cooled, while the bristle filaments 4 are still located within the filament holder 8 and are thus not cooled. As a result, the bristle set side 6 of the bristle carrier 2 is also protected against direct cooling, because said bristle set side 6 faces the filament holder 8 and faces away from a cooling device 17 of the bristle product production device 100, as is likewise highlighted in FIGS. 10 and 11.

[0103] A cooling time as well as a cooling rate can be predefined for the targeted deformation of the bristle carrier 2. Moreover, the bristle carrier 2 can be locally cooled, as is shown in FIGS. 10 and 11. In the latter, only a rear side 9 of the bristle carrier 2 is directly cooled in that the rear side 9 of the bristle carrier 2 is impinged with cold air by the cooling device 17.

[0104] It is furthermore conceivable to cool different regions of the bristle carrier 2 using different temperatures and/or cooling rates and/or cooling times.

[0105] Furthermore, the bristle carrier 2 is held by a holder 10 which is part of the bristle product production device 100 and is moreover designed in such a way that the bristle carrier 2 in the holder 10 is contacted only by way of a sub-region of its external face 11. The external face 11 can be the surface of the bristle carrier 2 that is adjacent to the bristle set side 6 of the bristle carrier 2 and moreover also comprises the previously mentioned rear side 9 of the bristle carrier 2. The configuration of the holder 10 can be particularly well seen in the detailed illustration of FIG. 2.

[0106] Accordingly, the bristle carrier 2 is held by a holder 10 which has a holding contour 12 for holding the bristle carrier 2, which is penetrated by a plurality of clearances 13 in such a way that the holder 10 contacts the bristle carrier 2 only by way of a sub-region of its external face 11.

[0107] The bristle product production device 100 which is shown in the figures is specified to carry out the previously described method. For this purpose, the bristle product production device 100 has a heating device 14. The heating device 14 is specified to heat fastening-proximal ends 5 of the bristle filaments 4 of the bristle set 3 and the bristle carrier 2 to which the bristle filaments 4 of the bristle set 3 are to be connected.

[0108] The heating device 14 herein is specified to fuse the fastening-proximal ends 5 of the bristle filaments 4as opposed to the bristle carrier 2. For this purpose, the heating device 14 comprises two heating surfaces 15 and 16, of which a first heating surface 15 is provided for heating fastening-proximal ends 5 of the bristle filaments 4 of the bristle set 3 of the bristle product 1 to be produced, and a second heating surface 16 is provided for heating the bristle carrier 2 of the bristle product 1 to be produced.

[0109] The heating device 14 is specified to heat the fastening-proximal ends 5 of the bristle filaments 4 and the bristle carrier 2, and to fuse the fastening-proximal ends 5 of the bristle filaments 4as opposed to the bristle carrier 2. The heating device 14, by way of its two heating surfaces 15 and 16, is thus specified to heat the fastening-proximal ends 5 of the bristle filaments 4 and the bristle carrier 2 to different temperatures. FIGS. 1 to 11 furthermore show that the heating surfaces 15 and 16 face away from one another.

[0110] For carrying out the cooling step already explained above, the bristle product production device 100 furthermore has a cooling device 17 which is shown in use in FIGS. 8 and 9, or 10 and 11, respectively. The cooling step of the method, reflected in FIGS. 10 and 11, does not have to take place in that station of the bristle product production device 100 in which the heating device 14 is used. It is conceivable to transfer the bristle product 1, which has already been almost completed in FIGS. 10 and 11, in the clamped state shown, to one or a plurality of downstream cooling stations in order to carry out the cooling step of the thermal joining process in the latter.

[0111] In principle the following correlation may apply: the longer and the more intensely the bristle carrier 2 is cooled after having been connected to the bristle filaments 4, the smaller the deformation by the thermal joining process. The in particular active cooling of the bristle carrier 2 causes at least partial curing of the bristle carrier 2 in the specifically clamped shape.

[0112] As has already been mentioned above, the bristle product production device 100 comprises a filament holder 8 which can also serve as a detent 7 for restricting or delaying the deformation of the bristle carrier 2. Furthermore, the filament holder 8 is specified to hold the bristle filaments 4 of the bristle set 3 in a clamping manner.

[0113] Furthermore, a counter-holder 18 of the bristle product production device 100 can be seen below the filament holder. The counter-holder 18 is profiled and serves to profile the bristle set 3 on its cleaning side, thus to provide the latter with a certain profile. Projections of the bristle filaments 4 generated on the fastening side due to the profiling of the bristle set 3 can be leveled out prior to connecting the bristle carrier 2 to the bristle filaments 4. This leveling out is possible, for example, by trimming the projections, or else by fusing or burning away the fastening-proximal projections of the bristle filaments 4. In the method shown in the figures, the fastening-proximal projections of the bristle filaments 4 have already been removed prior to connecting the bristle carrier 2 to the bristle filaments 4.

[0114] The bristle product production device 100 also has the holder 10, already described above. The holder 10 is specified to hold at least one bristle carrier 2 by way of a sub-region of its external face 11.

[0115] For this purpose, the holder 10 has a holding contour 12 for holding at least one bristle carrier 2. The holding contour 12 is formed on a holding space 19 of the holder 10 and is penetrated by a plurality of clearances 13. FIG. 2 in particular highlights that the holder 10 has a plurality of holding fingers 20 which form at least part of the holding contour 12 of the holder 10. Between the individual holding fingers 20 there are clearances 13 in which the holder 10 is not in mechanical contact with the bristle carrier 2 held therein.

[0116] The holder 10 shown in the figures furthermore has a recess 21 as a further clearance 13, by which the holding contour 12 of the holder 10 is interrupted. The recess 21 faces the holding space 19 and also the rear side 9 of the bristle carrier 2 located in the holding position on the holder 10.

[0117] The rear-side recess 21 can be particularly readily seen in FIG. 2. The rear-side recess 21 prevents any direct mechanical contact between the holder 10 and the bristle carrier 2 located on the holder 10 in the region of the rear side 9 of the bristle carrier 2. The clearances 13 avoid that heat from the bristle carrier 2 is discharged due to mechanical contact between the holder 10 and the bristle carrier 2, which heat is required for a secure connection between the bristle carrier 2 and the bristle filaments 4.

[0118] In this way, a bristle product 2 can be produced, of which the bristle set 3 can have a minor peripheral spacing from a circumferential periphery of the bristle carrier 2. A minor peripheral spacing herein can be as large as, or else smaller than, a bore diameter of a receptacle bore 22 in the bristle carrier 2.

[0119] FIG. 1 in particular highlights that the bristle carrier 2 has a multiplicity of receptacle bores 22 of this type, in which the fastening-proximal ends 5 of the bristle filaments 4 combined in bundles can be incorporated for fastening to the bristle carrier 2.

[0120] The holder 10 of the bristle product production device 100 shown in the figures is designed as a gripper and has two mutually assigned and movable gripper jaws 23 and 24. At least part of the holding contour 12 is formed on each of the two gripper jaws 23 and 24.

[0121] In this way, the gripper jaws 23 and 24 support in each case four of the total of eight mutually assigned holding fingers 20 of the holder 10, and also each have half of the rear-side recess 21 serving as the clearance 13.

[0122] The bristle carrier 2 in its gripper portion 25 is supported and held by a height-adjustable gripper 26 of the bristle product production device 100. The height-adjustable gripper 26 also functions as a retrieval device of the bristle product production device 100, by way of which the finished bristle product 1 can be retrieved from the filament holder 8 of the bristle product production device 100.

[0123] FIGS. 16 and 17 show a further embodiment of a bristle product production device which as an entity is denoted by the reference sign 100 and in terms of construction is identical to the bristle product production device 100 shown in the previous figures.

[0124] The bristle product production device 100 has an actuating drive 29 which is specified to press a bristle carrier 2 with a defined joining force 33 against offered-up bristle filaments 4, in order to connect the bristle carrier 2 to the bristle filaments 4.

[0125] In the bristle product production device 100 shown in FIGS. 16 and 17, the bristle filaments 4 for connecting to the bristle carrier 2 are also disposed in a filament holder 8 of the bristle product production device 100.

[0126] The bristle product production device 100 which is shown in FIGS. 16 and 17 has a force measuring device 27 having a load cell 28. The force measuring device 27 by way of its load cell 28 is specified to determine the joining force with which the bristle carrier 2 is pressed against the fastening-proximal ends 5 of the offered-up bristle filaments 4, in order to connect the bristle carrier 2 and the bristle filaments 4 to one another.

[0127] As can be seen, the force measuring device 27 here is disposed in the force flux direction between the actuating drive 29 and the holder 10. A pneumatic, a hydraulic or else an electric actuating drive can be used as the actuating drive 29.

[0128] The bristle product production device 100 has a control unit 30. The control unit 30 is specified to actuate the actuating drive 29 as a function of the actual joining force determined by the force measuring device 27 in such a way that the bristle carrier 2 on the holder 10 is pressed against the fastening-proximal ends 5 of the offered-up bristle filaments 4 with a desired, defined joining force of, for example, up to 10 Newton, so as to connect the bristle carrier 2 and the bristle filaments 4 to one another.

[0129] The bristle product production device 100 shown in FIGS. 16 and 17 is specified to press a bristle carrier 2 and the bristle filaments 4 of the bristle set 3 against one another in order to connect them to one another. The joining force 33 in the process can be at most 10 Newton, for example.

[0130] The joining force 33 is determined by the force measuring device 27, already mentioned above, and its load cell 28.

[0131] FIGS. 16 and 17 show that the load cell 28 is disposed in the force flux direction between the actuating drive 29 and the holder 10 for the bristle carrier 2. The actuating drive 29 transmits its driving force in the form of the joining force 33 to the load cell 28 by way of a first force transmission element 31.

[0132] A second force transmission element 32, by way of which the driving force of the actuating drive 29 is then transmitted to the holder 10 and by way of the latter to the bristle carrier 2 located on the holder 10, is disposed between the load cell 28 and the holder 10. The two force transmission elements 31 and 32 are designed as struts between which is disposed the load cell 28.

[0133] Instead of a load cell 28, the joining force 33 can also be determined by a compression spring, based on the known spring characteristic of the latter. By determining the spring travel of the compression spring when carrying out the method, the joining force 33 can be derived from the spring characteristic.

[0134] It is also possible to determine the joining force 33 by means of a current consumption of the actuating drive 29, already mentioned above, in particular if the actuating drive 29 is an electric actuating drive. In this instance, a load cell can be dispensed with in this variant.

[0135] Controlling the actuating drive 29 can take place by the control unit 30 of the bristle product production device 100 as a function of the determined joining force 33 which acts on the holder 10 and on the bristle carrier 2 located thereon.

[0136] The actually prevailing joining force 33 determined with the aid of the force measuring device 27 then serves as an input variable for the control unit 30 and is taken into account when controlling the actuating drive 29.

LIST OF REFERENCE SIGNS

[0137] 1 Bristle product [0138] 2 Bristle carrier [0139] 3 Bristle set [0140] 4 Bristle filament [0141] 5 Fastening-proximal end of 4 [0142] 6 Bristle set side [0143] 7 Detent [0144] 8 Filament holder [0145] 9 Rear side [0146] 10 Holder [0147] 11 External face [0148] 12 Holding contour [0149] 13 Clearance [0150] 14 Heating device [0151] 15 First heating surface [0152] 16 Second heating surface [0153] 17 Cooling device [0154] 18 Counter-holder [0155] 19 Holding space of 10 [0156] 20 Holding finger [0157] 21 Rear-side recess [0158] 22 Receptacle bore [0159] 23 Gripper jaw [0160] 24 Gripper jaw [0161] 25 Gripping portion [0162] 26 Height-adjustable gripper [0163] 27 Force measuring device [0164] 28 Load cell [0165] 29 Actuating drive [0166] 30 Control unit [0167] 31 Force transmission element [0168] 32 Force transmission element [0169] 33 Joining force [0170] 100 Bristle product production device