Abstract
To improve the brush-making field, a tuft-picking device (4) is provided, which includes the tuft picker (8) that is movable in relation to the material box (2) of the brush-making machine (1) and, on its front side (11), which in the operating position faces the bristle supply (3) held in the material box (2), includes at least one tuft-picking notch (12). The tuft-picking notch (12) has two opposing knife edges (14, 15), which delimit the notch opening (13) of the tuft-picking notch (12) and are oriented transverse to the direction of movement of the tuft picker (8). Another part of the tuft-picking device (4) is the counter piece (9), which is provided with the separating edge (17) facing the tuft picker (8). In order to allow bristle filaments (16) to be removed from the bristle supply (4) as gently as possible, at least one of the two knife edges (14, 15) and/or the separating edge (17) is rounded.
Claims
1. A tuft-picking device for a brush-making machine, the tuft-picking device comprising: a tuft picker that is movable relative to a material box, a counter piece that is stationary relative to the movable tuft picker, at least one tuft-picking notch on the tuft picker located on a front side thereof that in a use position faces a bristle supply kept ready in the material box, and for picking a bristle tuft from the bristle supply and for dispensing a received bristle tuft to the brush-making machine using the at least one tuft-picking notch, the tuft picker is movable past the bristle supply and past the counter piece at least up to a dispensing position, the tuft-picking notch has two mutually opposite blade edges that delimit a notch opening of the tuft-picking notch and are oriented transversely to a direction of movement of the tuft picker, and the counter piece has a separation edge that faces the tuft picker, and at least one of the two blade edges or the separation edge is rounded transverse to a longitudinal extent thereof.
2. The tuft-picking device as claimed in claim 1, wherein at least one of the blade edges of the two blade edges is rounded, said blade edge being a rear blade edge in a transportation direction of bristle tufts to the dispensing position.
3. The tuft-picking device as claimed in claim 1 at least one of the blade edges or the separation edge is rounded with a respective one of a blade edge radius or a separation edge radius having a length between 0.005 mm and 0.03 mm.
4. The tuft-picking device as claimed in claim 1, wherein a surface of the at least one of the blade edges or the separation edge is smoothed with a mean roughness value or surface roughness value of Ra less than 0.1.
5. A method for producing a tuft picker of a tuft-picking device as claimed in claim 1, comprising at least one of HSC milling or HSC grinding at least one of the at least one tuft-picking notch, at least one blade edge chamfer, a blade edge arc, an end chamfer, an end radius, an upper-side picker chamfer, a lower-side picker chamfer on the tuft picker, a notch edge radius of the tuft-picking notch, chamfer edges of at least one chamfer on the tuft picker, or an internal face of the tuft-picking notch.
6. The method as claimed in claim 5, for producing a tuft picker of a tuft-picking device, further comprising producing at least one smooth surface of the tuft picker by at least one of grinding or polishing.
7. The method as claimed in claim 6, wherein a surface of at least one the blade edge radius, the blade edge chamfer, the blade edge arc, the notch edge radius, the end face, the end chamfer, the end radius, the chamfer edge of the at least one chamfer, or an internal face of the tuft-picking notch is at least one of produced or post-machined by the at least one of grinding or polishing.
8. The method as claimed in claim 7, further comprising performing the production or post-machining by at least one of friction grinding, flow grinding, plasma polishing, drag grinding, drag finishing, manual polishing, or electrochemical deburring.
9. The method as claimed in claim 5, further comprising using at least one of wet granules, dry granules, porcelain grinding tools, plastics-material grinding tools, ceramic grinding tools, inox chips, copper pins, stainless-steel grinding tools, zirconium balls, micro-finishing grinding tools, plastics-material polishing tools, wet-grinding pastes, polishing pastes, walnut granules, corn granules, or dry-grinding granules as grinding or polishing media.
10. A method for producing a counter piece of a tuft-picking device as claimed in claim 1, comprising: at least one of a separation edge radius, a separation edge chamfer, a separation edge arc, a lateral front face, a lateral chamfer, a lateral radius or at least one rounded chamfer edge of a chamfer on the counter piece by at least one of HSC milling or HSC grinding.
11. The method as claimed in claim 10, further comprising producing or post machining at least one smooth surface of the counter piece by at least one of grinding or polishing.
12. The method as claimed in claim 11, wherein a surface of at least one of a separation edge radius, a separation edge chamfer, a separation edge arc, a lateral front face, a lateral chamfer, a lateral radius, or at least one chamfer edge of a chamfer on the counter piece is at least one of produced or post-machined by the at least one of grinding or polishing.
13. The method as claimed in 30, wherein the at least one of production or post-machining is performed by at least one of friction grinding, flow grinding, plasma polishing, drag grinding, drag finishing, manual polishing, or by electrochemical deburring.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
(1) Exemplary embodiments of the invention are described hereunder in more detail by the figures. To some extent in a very schematic illustration:
(2) FIG. 1 shows a perspective view of a brush-making machine according to the invention, having a tuft-picking device which has a tuft picker in the form of an arcuate separator that is pivotable about a pivot axis and a stuffing tool;
(3) FIG. 2 shows a perspective view of a first variant of a tuft-picking device according to the invention, wherein it can be seen that a blade edge of the tuft-picking notch in terms of the length thereof is reduced by two blade edge chamfers that are disposed so as to be adjacent to the blade edge, and the tuft picker moreover has an upper-side and the lower-side picker chamfer;
(4) FIG. 2A shows the detail marked by the circle in FIG. 2 in an enlarged illustration, wherein it can be seen that a separation edge of the counter piece in terms of the length thereof is reduced according to the length of the blade edge by attaching in each case one upper-side and one lower-side separation edge chamfer;
(5) FIG. 3 shows a further perspective view of another embodiment of the tuft-picking device according to the invention, wherein the blade edge of the tuft-picking notch is delimited by two blade edge arcs or arcs that are disposed so as to be adjacent to the blade edge;
(6) FIG. 3A shows the detail marked by a circle in FIG. 3 in an enlarged illustration, in which a separation edge of a counter piece of said tuft-picking device is configured so as to correspond to the blade edge of the tuft picker, wherein it can be seen that the blade edge and the separation edge have a straight profile that is oriented so as to be orthogonal to the direction of movement of the tuft picker;
(7) FIG. 4 shows a further perspective view of a third embodiment according to the invention of a tuft-picking device;
(8) FIG. 4A shows the detail marked by the circle in FIG. 4 in an enlarged illustration, wherein it can be seen that an upper-side and a lower-side picker chamfer in each case are joined by a blade edge arc which open into the blade edge;
(9) FIG. 5 shows a plan view of a conventional tuft picker in a position adjacent to a sharply tapered counter piece on which a sharp separation edge is configured;
(10) FIG. 5A shows the detail marked by the circle in FIG. 5 in an enlarged illustration, wherein a bristle filament that is disposed between a sharp blade edge and a sharp separation edge can be seen;
(11) FIG. 6 shows a plan view of a tuft picker according to the invention in a position adjacent to a counter piece having a rounded separation edge;
(12) FIG. 6A shows the detail marked by the circle in FIG. 6 in an enlarged illustration, wherein a bristle filament that is disposed between a rounded blade edge of the tuft picker and a rounded separation edge of the counter piece can be seen;
(13) FIG. 7 shows a plan view of a conventional counter piece having a sharp, thus sharply tapered, separation edge on a tip of the counter piece;
(14) FIG. 8 shows a plan view of the counter piece illustrated in FIG. 7, after rounding the separation edge, wherein it can be clearly seen by a depicted measuring tip that a tip of the counter piece is severely shortened by rounding the separation edge;
(15) FIG. 9 shows a plan view of a counter piece according to the invention, wherein it can be seen that a box side of the counter piece is composed of a first portion having a first radius and of a second portion having a second radius that is bent counter to the first radius;
(16) FIG. 10 shows a plan view of the counter piece illustrated in FIG. 9, after rounding the separation edge, wherein with the aid of the measuring tip illustrated therein it is highlighted that a tip of the counter piece on which the separation edge is disposed by virtue of the two dissimilar radii of the two portions of the box side of the counter piece is shortened only in a comparatively minor manner by rounding;
(17) FIG. 11 shows a plan view of a tuft picker in the form of an arcuate separator, wherein the tuft picker comprises a tuft-picking notch having a smooth surface which has a mean surface roughness Ra of approximately 0.4;
(18) FIG. 12 to FIG. 14 show three lateral views of three dissimilar tuft pickers;
(19) FIG. 12A shows the detail marked by the circle in FIG. 12 in an enlarged illustration, wherein it can be seen that edges on an end face of the end side of the arc are not machined;
(20) FIG. 13A shows the detail marked by the circle in FIG. 13 in an enlarged illustration, wherein it can be seen that an end face of an end side of the tuft picker is provided with two peripheral end chamfers, wherein the end face and the chamfer faces of the end chamfers are smoothed and have a mean surface roughness value Ra of approximately 0.1;
(21) FIG. 14A shows the detail marked by the circle in FIG. 14 in an enlarged illustration, wherein the end face on the end side of the arc herein is provided with peripheral chamfers, the chamfered edges thereof being rounded by way of a radius of 0.005 millimeters to 0.03 millimeters, wherein a surface roughness of the end face and also of the chamfer faces and also of the radii have a mean surface roughness value of Ra<0.05;
(22) FIG. 15 shows a plan view of a counter piece according to the invention;
(23) FIG. 16 shows a first variant of the counter piece illustrated in FIG. 15 in a front view sectioned along the section line illustrated in FIG. 15;
(24) FIG. 17 shows a second front view of a further variant of a counter piece according to the invention, sectioned along the section line illustrated in FIG. 15;
(25) FIG. 18 shows a front view of a third variant of a counter piece according to the invention, sectioned along the section line illustrated in FIG. 15;
(26) FIG. 16A shows the detail marked by the circle in FIG. 16 in an enlarged illustration, wherein it can be seen that none of the edges of the counter piece are machined;
(27) FIG. 17A shows the detail marked by the circle FIG. 17 in an enlarged illustration, wherein it can be seen that both a box side as well as a picker side of the counter piece are in each case provided with lateral chamfers;
(28) FIG. 18A shows the detail marked by the circle in FIG. 18 in an enlarged illustration, wherein it can be seen that a box side and a picker side of the counter piece are provided with peripheral lateral chamfers, wherein chamfer edges of the lateral chamfers are in each case rounded by way of a radius;
(29) FIG. 19 shows a lateral view of a further counter piece according to the invention, wherein a separation edge can be seen on a tip of the counter piece;
(30) FIG. 20 shows a side view of a further counter piece according to the invention, wherein a separation edge can be seen on a tip of the counter piece;
(31) FIG. 19A shows the detail marked by the circle FIG. 19 in an enlarged illustration, wherein it can be seen that the separation edge is delimited by two separation edge chamfers;
(32) FIG. 20A shows the detail marked by the circle in FIG. 20 in an enlarged illustration, wherein it can be seen that the separation edge is delimited by two separation edge arcs;
(33) FIG. 21 shows a perspective view of a tuft picker in the form of an arcuate separator, known from the prior art;
(34) FIG. 22 shows an enlarged illustration of a tuft-picking notch without chamfers and without radii, known from the prior art;
(35) FIGS. 23 to 39 show various variants of tuft pickers housing tuft-picking notches, the blade edges thereof being delimited in terms of the length thereof by various combinations of blade edge chamfers and/or blade edge arcs as well as upper-side and/or lower-side picker chamfers that cover the tuft-picking notch;
(36) FIG. 40 shows a perspective view of a tuft picker according to the invention in the form of an arcuate separator having a total of three tuft-picking notches designed in different sizes, the blade edges thereof in terms of the lengths thereof being delimited by dissimilar blade edge chamfers and blade edge arcs;
(37) FIG. 41 shows a perspective view of a tuft picker according to the invention in the form of an arcuate separator having an arcuate notch that is adjustable in terms of the depth and in terms of the cross section thereof; and
(38) FIG. 42 shows a perspective view of a circular tuft-picker disk which is provided with a plurality of tuft-picking notches, wherein the left three tuft-picking notches are standard tuft-picking notches, wherein the central three tuft-picking notches are ones having a parallel exit, wherein an exit direction is axially oriented, and wherein the right three tuft-picking notches are ones having a parallel exit, wherein the exit directions are oriented so as to be mutually parallel, wherein all of the notches can be configured according to one of the variants illustrated in FIGS. 23 to 39.
DETAILED DESCRIPTION
(39) FIG. 1 shows a brush-making machine that in its entirety is identified by the reference sign 1, having a material box 2 for supplying a bristle supply 3, and having a tuft-picking device 4 which has a tuft picker 8 for retrieving bristle tufts from the material box 2.
(40) The brush-making machine 1 illustrated in FIG. 1 moreover also has a stuffing tool 5. The bristle tufts that with the aid of the tuft-picking device 4 have been retrieved from the material box 2 can be transferred to said stuffing tool 5 for stuffing into a brush body 7 that is kept ready on a corresponding holding device 6.
(41) The brush body 7 with the aid of the holding installation 6 can be moved to the position relative to the stuffing tool 5 that is required for stuffing the bristle tufts.
(42) The tuft-picking device 4 comprises a tuft picker 8 that is movable relative to the material box 2, and a counter piece 9 that is stationary relative to the movable tuft picker 8. Moreover, a material holder 10 which if required can be designed in a manner analogous to the counter piece 9 can be seen on the left side of the material box 2 in FIG. 1.
(43) The tuft picker 8 on the front side 11 thereof that in the use position faces the bristle supply 3 kept ready in the material box 2 has at least one tuft-picking notch 12. For retrieving and singularizing a bristle tuft from the bristle supply 3 and for dispensing a received bristle tuft to the brush-making machine 1, the tuft picker 8 by way of the at least one tuft-picking notch 12 thereof can be moved past the material box 2 and the bristle supply 3 located therein at least up to a dispensing position. The tuft-picking notch 12 has two mutually opposite blade edges 14, 15 which delimit a notch opening 13 of the tuft-picking notch 12 and are oriented transversely to the direction of movement of the tuft picker 8. The counter piece 9 is provided with a separation edge 17 that faces the tuft picker 8.
(44) As now is highlighted, for example by FIGS. 6 and 6A, at least one of the two blade edges 14, 15 and the separation edge 17 are rounded transversely to the longitudinal extent thereof. This in order to treat with care individual brush filaments 16 when separating the bristle filaments 16 from the bristle supply 3 of loose bristle filaments 16.
(45) The material box 2 according to FIG. 1 comprises three magazines having in each case one supply of bristle filaments 16. By pivoting the material box 2 about the pivot axis thereof in the direction of the double arrow the individual magazines can be moved to a position relative to the tuft picker 8 that is required for the retrieval of bristle filaments 16.
(46) FIGS. 5 and 5A show a tuft picker 8 and a corresponding counter piece 9 as known from the prior art. It can be readily seen according to FIG. 5A that both the blade edge 15 illustrated therein as well as the separation edge 17 illustrated therein converge in a tip, thus converging a sharp manner, due to which a bristle filament 16 that is disposed therebetween could be damaged when retrieved from the material box 2.
(47) According to FIGS. 6 and 6A the blade edge 15 of the two blade edges 14, 15, in the transportation direction of the bristle tufts to the dispensing position, is the rear blade edge 15 and is rounded.
(48) The blade edge 15 herein is provided with and rounded by way of a blade edge radius 15a, and the rounded separation edge 17 is provided with and rounded by way of a separation edge radius 17a. The blade edge radius 15a and the separation edge radius 17a are in each case oriented transversely to the longitudinal extent of the blade edges 14 and 15 and also of the separation edge 17.
(49) Said radii 15a and 17a by way of which the blade edges 14 and/or 15 and the separation edge 17 are rounded herein can have a length between 0.005 millimeters and 0.03 millimeters, particularly preferably between 0.0005 and 0.02 millimeters.
(50) It is worth noting that a surface of the rounded blade edges 14, 15 and a surface of the rounded separation edge 17 are smoothed.
(51) The smoothed surfaces of the blade edges 14, 15 and of the separation edge 17 herein can have a mean roughness value or a surface roughness value of Ra<0.1, preferably of Ra<0.05, particularly preferably of Ra<0.02.
(52) According to FIGS. 1, 40 and 41 the tuft picker 8 is an arcuate separator 18 which is pivotable or rotatable, respectively about a pivot axis, and which can also be referred to as an arcuate picker, or is a circular tuft-picker disk 19 that is pivotable or rotatable about a pivot axis.
(53) FIGS. 2 to 4A and FIGS. 24 to 39 show that a length of at least one of the blade edges 14, 15 is smaller than a maximum height of the tuft-picking notch 12 measured transversely to the direction of movement of the tuft picker 8.
(54) In order for the length of the blade edges 14, 15 to be reduced, and depending on the exemplary embodiment of the tuft-picking notch 12 according to the invention, a blade edge chamfer 21 and/or a blade edge arc 22 can herein be configured between a flat side 20 of the tuft picker 8 that is oriented transversely to the longitudinal axis of the tuft-picking notch 12 and the respective blade edge 14, 15. The length of the blade edges 14 and/or 15 can be delimited by attaching blade edge chamfers 21 of this type and/or blade edge arcs 22 of this type, this facilitating a more gentle retrieval of bristle filaments 16 from the bristle supply 3 in the material box 2 of the brush-making machine 1.
(55) In the case of some exemplary embodiments of the tuft-picking notch 12 according to the invention, for example FIGS. 4A, 5A, 35, 36, 40, it is provided that in each case at least one blade edge chamfer 21 and/or at least one blade edge arc 22 in the form of a comparatively large radius is configured between both flat sides 20 of the tuft picker 8 that are oriented transversely to the longitudinal axis of the tuft-picking notch 12 and the at least one blade edge 14, 15, such that the respective blade edge 14, 15 is disposed between at least two blade edge chamfers 21 and/or between at least two blade edge arcs 22. A length of the respective blade edge 14, 15 is also reduced due to this and in this instance is thus smaller than a maximum height of the tuft-picking notch 12 measured transversely to the direction of movement of the tuft picker 8, and also smaller than a length of the bristle filaments 16. Any conceivable combination of blade edge chamfers 21 and blade edge arcs 22 is possible herein if required, either on only one side of the respective blade edge 14, 15 or else on both sides of the blade edges 14, 15.
(56) FIGS. 4 and 4A show a further detail of the tuft-picking device 4 according to the invention which enables a gentle retrieval of bristle filaments 16 from the bristle supply 3. It can be seen here that the tuft-picking notch 12, at least adjacent to one of the two blade edges 14, 15, has a flattened run-in ramp 23 into the tuft-picking notch 12.
(57) According to the exemplary embodiments of the tuft picker 8 such as the latter is illustrated in FIGS. 4 and 4A and also in some of FIGS. 23 to 39, notch edges 24 of the tuft-picking notch 12 that are oriented transversely or orthogonally, respectively, to a longitudinal central axis of the tuft-picking notch 12 are also rounded by way of a notch edge radius 24a which preferably has a length between 0.005 millimeters and 0.03 millimeters.
(58) When viewing FIGS. 2 to 4A and also FIGS. 19 to 20A it becomes obvious that a length of the separation edge 17 is also smaller than a maximum height of the counter piece 9 measured transversely to the movement of the tuft picker 8.
(59) In order for this length reduction of the separation edge 17 to be achieved, the counter piece 9 has at least one separation edge chamfer 25 that is oriented transversely to the longitudinal extent of the separation edge 17, or at least one separation edge arc 26, in the form of a radius, that is oriented transversely to the longitudinal extent of the separation edge 17, respectively. The separation edge 17 in terms of the length thereof is in this instance delimited both by the separation edge chamfer 25 as well as by the radius 26. According to FIG. 4A the counter piece 9 has two separation edge chamfers 25 that are oriented transversely to the longitudinal extent of the separation edge 17. Said separation edge chamfers 25 can be particularly readily seen in FIG. 4A. The separation edge 17 in this instance is disposed between the two chamfers 25 such that a length of the separation edge 17 is smaller than the height of the counter piece 9 measured transversely to the direction of movement of the tuft picker 8. If required, chamfer edges of the separation edge chamfers 25 can be rounded, in particular by way of a radius.
(60) FIGS. 3A and 4A show a further variant of the counter piece 9 according to the invention. It is provided herein that the counter piece 9 has two separation edge arcs 26 that are oriented transversely to the longitudinal extent of the separation edge 17, the separation edge 17 being disposed therebetween such that the length of the separation edge 17 is smaller than a maximum height of the counter piece 9 measured transversely to the direction of movement of the tuft picker 8, smaller than a maximum height of the tuft-picking notch 12, and smaller than a length of the bristle filament 16.
(61) It is of course possible for the transition between the separation edge 17 and an upper side 27 and a lower side 28 between which the separation edge 17 is disposed to be bridged both by way of separation edge arcs 26 of this type as well as by way of separation edge chamfers 25 of this type. In particular in the use of separation edge chamfers 25 it is possible for chamfer edges of the separation edge chamfers 25 to be rounded, in particular to be provided with radii so as to achieve the transition which is ideally soft and gentle for the bristle filaments 16.
(62) FIGS. 2 to 4A as well as 19 to 19A show that at least one of the blade edges 14, 15 and the separation edge 17 are oriented orthogonally to a direction of movement of the tuft picker 8. This is also the case when the respective blade edge 14, 15, or the respective separation edge 17, respectively, is/are delimited on one side or else on both sides by blade edge chamfers 21 or separation edge chamfers 25, or blade edge arcs 22 or separation edge arcs 26, respectively (cf. FIG. 2A and FIG. 3A as well as FIG. 19A and FIG. 20A). The separation edge 17 illustrated in FIGS. 20 and 20A has a linear length between 0.01 mm and 0.8 mm, said length being disposed between the two separation edge arcs 26. This can hold true for any conceivable separation edge 17 in the context of the tuft-picking device 4 according to the invention.
(63) An end side 29 that is aligned transversely to the front side 11 of the tuft picker 8 has an end face 30 which, depending on the exemplary embodiment of the tuft picker 8, is delimited by at least one peripheral end chamfer 31.
(64) FIGS. 13 to 14A show tuft pickers 8, the end faces 30 thereof being in each case delimited by two peripheral end chamfers 31.
(65) The peripheral end chamfers 31 herein can be aligned at an angle of 20 degrees to 30 degrees in relation to the end face 30 of the tuft picker 8, and have a chamfer width between 0.05 millimeters and 0.4 millimeters.
(66) According to the exemplary embodiment of a tuft picker 8 as per FIGS. 14 and 14A, chamfer edges 31a of the end chamfers 31 in turn are rounded by way of a radius having a length between 0.005 millimeters and 0.03 millimeters.
(67) FIGS. 17 to 18A highlight in particular that both a box side 32 of the counter piece 9 that faces the bristle supply 3 as well as a picker side 33 of the counter piece 9 that faces the tuft picker 8 have peripheral lateral chamfers 41 by way of which the respective interface 30 of the box side 32, or of the picker side 33, respectively, is delimited.
(68) As has already been explained in the context of the afore-described exemplary embodiments of the tuft picker 8, it is also provided herein that the peripheral lateral chamfers 41 on the box side 32 of the counter piece 9 are aligned at an angle of 20 degrees to 80 degrees in relation to a lateral front face 40 of the box side 32 that is adjacent to the lateral chamfer 41. The peripheral lateral chamfers 41 on the picker side 33 of the counter piece 9 are also aligned at an angle of 20 degrees to 30 degrees in relation to a lateral front face 40 of the picker side 33 of the counter piece 9 that is adjacent to the lateral chamfer 41.
(69) In the case of the exemplary embodiment of the counter piece 9 according to FIGS. 18 and 18A it can be seen that both the two lateral chamfers 41 disposed on the box side 32 as well as the lateral chamfers 41 disposed on the picker side 33 have chamfer edges 41a that are rounded by way of a radius. The length of said radius by way of which the chamfer edges are rounded herein is between 0.005 millimeters and 0.03 millimeters.
(70) The chamfer width of the lateral chamfers 41 but also of the end chamfers 31 is between 0.05 millimeters and 0.4 millimeters.
(71) FIGS. 9 and 10 show that the box side 32 of the counter piece 9 that faces the bristle supply 3 is subdivided into a first portion 34 and into a second portion 35. The first portion 34 herein along the longitudinal extent thereof is bent about a first radius 34a. The second portion 35 along the longitudinal extent thereof is bent about a second radius 35a. The first radius 34a herein is bent in the direction counter to the second radius 35a. The separation edge 17 is configured on a free end 42 which can also referred to as the tip, of the first portion 34 on the counter piece 9. The second radius 35a herein is obviously larger than the first radius 34a.
(72) FIGS. 7 and 8 show a counter piece 9 previously known from the prior art. In the case of said counter piece 9 it is provided at the box side 32 is curved in a first radius, and the picker side 33 is curved in a second radius. The separation edge 17 of said counter piece 9 is formed by the tangentially converging radii of the box side 32 and of the picker side 33. If the separation edge 17 is rounded, a relatively large spacing from the measuring tip 36 which is illustrated only for visualization purposes in FIGS. 7 to 10 is created. This by virtue of the voluminous subtraction of material which is required in order for the separation edge 17 of said counter piece 9 to be rounded.
(73) This means that the separation edge 17 of said counter piece 9 due to the rounding thereof is retracted far, the free end 42 thus being shortened. This to an extent that the entire geometry of the tuft-picking device 4 has to be adapted.
(74) In comparison, it can be seen by the position of the rounded separation edge 17 of the counter piece 9 according to the invention relative to the measuring tip 36 that a rounded feature of the separation edge 17 is associated with only a minimum change in the dimensions of the counter piece 9 and only a minimum shortening of the free end 42 of the counter piece 9 according to the invention, such that a new design of the tuft-picking device 4 due to the separation edge 17 being rounded is not required.
(75) Depending on the requirement, the surfaces of the tuft picker 8 that face the material box 2 and also the surfaces of the counter piece 9 that face the tuft picker 8 can also be smoothed. A mean roughness value or surface roughness value Ra of the smoothed surfaces herein can be less than 0.1, preferably less than 0.05, particularly preferably less than 0.02. In principle, all of the surfaces of both the tuft picker 8 as well as of the counter piece can be smoothed in such a manner. It is moreover to be pointed out that also surfaces of the of the blade edge radius 15a, blade edge chamfers 21, of the separation edge radius 17a of the separation edge chamfers 25, of the end chamfers 31 and of the lateral chamfers 41, as well as of the blade edge arcs 22 and of the separation edge arcs 28 as well as radii for rounding the chamfer edges of the blade edge chamfers 21, of the separation edge chamfers 25, of the end chamfers 31 and of the lateral chamfers 41, but also upper-side and lower-side picker chamfers 43 on the tuft picker 8 can be smoothed in such a manner.
(76) FIG. 41 shows a tuft picker 8 of the tuft-picking device 4 according to the invention, the tuft-picking notch 12 thereof being an adjustable tuft-picking notch 12. In order for said tuft-picking notch 12 to be adjusted, the tuft-picking device 4 comprises an adjustment device 37 for adjusting a notch depth and/or a cross-sectional geometry of the tuft-picking notch 12 which is disposed on the tuft picker 8. In order for the notch depth and/or the cross-sectional geometry of the tuft-picking notch 12 to be adjusted, an adjustment plate 38 can be pushed from behind into the tuft-picking notch 12 here.
(77) FIGS. 22 to 39 show various embodiments of tuft pickers 8 according to the invention.
(78) FIG. 23 shows a tuft picker 8 having a tuft-picking notch 12, the notch edges 24 thereof being rounded by a notch edge radius 24a.
(79) FIG. 24 shows a tuft picker 8, the two blade edges 14 and 15 thereof being rounded by a blade edge radius 15a. The notch edges 24 of said tuft picker 8 are likewise rounded by a notch edge radius 24a. The tuft-picking notch 12 is covered at least by one upper-side picker phase 43, the latter leading to a reduction of the edge length of the two blade edges 14 and 15 of said tuft picker 8.
(80) FIG. 25 shows a tuft picker 8, the rear blade edge 15 thereof being delimited on both sides by in each case two blade edge chamfers 21. The tuft-picking notch 12, at least on the upper side, is covered by a picker chamfer 43 also in the case of this tuft picker 8.
(81) The tuft picker 8 according to FIG. 26 differs from the tuft picker 8 according to FIG. 25 by way of the run-in ramp 23 which is disposed so as to be adjacent to the rear blade edge 15 of said tuft picker 8.
(82) The tuft picker 8 according to FIG. 27 has at least one upper-side picker chamfer 43 which covers the tuft-picking notch 12 and thus leads to a reduction of the length of both the blade edge 14 as well as of the rear blade edge 15. Moreover, the rear blade edge 15 in the length thereof is delimited on both sides by in each case one blade edge arc 22.
(83) FIG. 28 shows a tuft picker 8 which differs from that of FIG. 27 by way of the run-in ramp 23 that is disposed so as to be adjacent to the rear blade edge 15.
(84) FIG. 29 shows a tuft picker 8 which in comparison to the tuft picker 8 such as is illustrated in FIG. 28 has notch edges 24 that are rounded by a notch edge radius 24a as well as a rear blade edge 15 that is rounded by a blade edge radius 15a.
(85) FIG. 30 shows a further tuft picker 8 which has an upper-side and a lower-side picker chamfer 43. The lengths of the two blade edges 14 and 15, in terms of the length thereof, are on both sides delimited by each case two blade edge chamfers 21. Moreover, run-in ramps 23 are in each case configured so as to be adjacent to the front blade edge 14 as well as to the rear blade edge 15.
(86) FIG. 31 shows a tuft picker 8 which has a picker chamfer 43 both on the upper side as well as on the lower side. Both blade edges 14 and 15 in terms of the length thereof are delimited in each case by two blade edge radii 22. A run-in ramp 23 into the tuft-picking notch 12 is in each case configured so as to be adjacent to the blade edge 14 and also so as to be adjacent to the blade edge 15 on said tuft picker 8.
(87) FIG. 32 shows a tuft picker 8 which has no picker chamfer whatsoever. The rear blade edge 15 of said tuft picker 8 in terms of the length thereof is on both sides delimited by in each case two blade edge chamfers 21.
(88) FIG. 33 shows a tuft picker 8 which differs from the tuft picker 8 such as is illustrated in FIG. 32 by way of the notch edges 24 that are rounded by a notch edge radius 24a and by way of the rear blade edge 15 that is rounded by a blade edge radius 15a.
(89) FIG. 34 shows a further tuft picker 8 which differs from the tuft picker 8 illustrated in FIG. 32 in that in the case of the former also the front blade edge 14 of the two blade edges 14 and 15 in terms of the length thereof is delimited on both sides by in each case two blade edge chamfers 21.
(90) FIG. 35 shows a tuft picker 8 which is of the same construction as the tuft picker 8 illustrated in FIG. 34, wherein both the front blade edge 14 as well as the rear blade edge 15 of the tuft picker 8 are in each case rounded by way of a blade edge radius 15a. It is also worth noting that the notch edges 24 of this tuft picker 8 are rounded by a notch edge radius 24a.
(91) FIG. 36 shows a tuft picker 8, again without a picker chamfer 43, the rear blade edge 15 of said tuft picker 8 in terms of the length thereof being delimited on both sides by in each case one blade edge radius 22.
(92) FIG. 37 shows a tuft picker 8 which differs from the tuft picker 8 which is illustrated in FIG. 36 by way of the notch edges 24 that are rounded by an notch edge radius 24a and by way of rear blade edge 15a that are rounded by a blade edge radius 15a.
(93) FIG. 38 shows a tuft picker 8, the front blade edge 14 thereof and the rear blade edge 15 thereof in terms of the lengths thereof being delimited in each case by two blade edge radii 22.
(94) FIG. 39 shows a tuft picker 8 which differs from the tuft picker 8 according to FIG. 38 by way of the rounded notch edges 24 and the rounded rear blade edge 15, but is otherwise identical to said tuft picker 8 according to FIG. 38. The notch edges 24 are rounded by the already afore-mentioned notch edge radius 24a. The blade edges 14 and 15 are rounded by in each case one blade edge radius 15a.
(95) The tuft-picking notch 12, the blade edges 14 and 15, the separation edge 17 and also all of the chamfers 21, 25, 31 and 41 on the tuft picker 8 on the tuft-picking notch 12 and on the counter piece 9 can be produced by HSC milling and/or HSC grinding. The smooth surfaces of the tuft picker 8, of the counter piece 9, and also the radii for rounding the at least one blade edge 14, 15 and the separation edge 17 are produced or at least post-machined by polishing. This can be performed in particular by friction grinding, flow grinding, plasma polishing, drag grinding, drag finishing and/or manual polishing and/or electrochemical deburring.
(96) The radii for rounding existing chamfer edges, in particular the chamfer edges 31a, 41a can also be produced or at least post-machined by way of polishing methods of this type, when said chamfer edges are comparatively small.
(97) The end face 30 on the tuft picker 8, and the lateral front faces 40 on the box side 32 and the picker side 33 of the counter piece 9, the chamfer faces of the end chamfers 31 and of the lateral chamfers 41 as well as surfaces of the chamfer edges 31a and 41a rounded by radii (cf. FIGS. 12A, 13A, 14A) and an internal face 39 of the tuft-picking notch 12 can also be produced in this way.
(98) The chamfer faces of the end chamfers 31 and the end faces 30 of the tuft picker 8 according to FIG. 13A have a mean surface roughness value Ra of 0.1.
(99) The chamfer faces of the end chamfers 31, the surfaces of the chamfer edges 31a rounded by radii, and the end faces 30 of the tuft picker 8 according to FIG. 14A have a mean surface roughness value Ra of 0.05.
(100) The chamfer faces of the lateral chamfers 41, and the lateral front faces 40 of the counter piece 9 according to FIG. 17 have a mean surface roughness value Ra of 0.1.
(101) The chamfer faces of the lateral chamfers 41, the surfaces of the rounded chamfer edges 41a and the lateral front faces 40 of the counter piece 9 according to FIG. 18A have a mean surface roughness value Ra of 0.05.
(102) In principle, and depending on requirements, each chamfer and each surface, in particular those which come into contact with bristle filaments 16, of the tuft picker 8 and of the counter piece 9 can be smoothed.
(103) At least the surface of the front side 11 of the tuft picker 8, the surfaces of the chamfers 21 and 25, as well as the surfaces of the radii 22 and 26 on the tuft picker 8, as well as the rounded chamfer edges by way of which the chamfers 21 and 25 can be delimited, are produced and/or post-machined by grinding and/or polishing.
(104) The production or post-machining of at least said smooth surfaces of the tuft picker 8 and also of the counter piece can be performed specifically by friction grinding, flow grinding, plasma polishing, drag grinding, drag finishing and/or manual polishing and/or electrochemical deburring.
(105) Wet and/or dry granules, porcelain grinding tools, plastics-material grinding tools, ceramic grinding tools, inox chips, copper pins, stainless-steel grinding tools, zirconium balls, micro-finishing grinding tools, plastics-material polishing tools, wet-grinding pastes, polishing pastes, walnut granules, corn granules, and/or dry-grinding granules are/is used as grinding or polishing means.
(106) A run-in chamfer 44 for dispensing the bristle filaments 16 to the stuffing tool 5 can be seen at the lower end of the counter piece 9 depicted in FIG. 17.
(107) As an improvement in the sector of brush manufacturing the tuft-picking device 4 is inter alia provided, said bundle-picking device 4 comprising the tuft picker 8 that is movable relative to the material box 2 of the brush-making machine 1, said tuft picker 8 on the front side 11 thereof that in the use position faces the bristle supply 3 kept ready in the material box 2 having at least one tuft-picking notch 12. The tuft-picking notch 12 comprises has two mutually opposite blade edges 14, 15 that delimit the notch opening 13 of the tuft-picking notch 12 and are oriented transversely to the direction of movement of the tuft picker 8. The counter piece 9 that is provided with the separation edge 17 that faces the tuft picker 8 is also part of the tuft-picking device 4. In order for an ideally gentle retrieval of bristle filaments 16 from the bristle supply 4 to be enabled, at least one of the two blade edges 14, 15 and/or the separation edge 17 is rounded.
LIST OF REFERENCE SIGNS
(108) 1 Brush-making machine 2 Material box 3 Bristle supply 4 Tuft-picking device 5 Stuffing tool 6 Holding device 7 Brush body 8 Tuft picker 9 Counter piece 10 Material holder 11 Front side of 8 12 Tuft-picking notch 13 Notch opening 14 Blade edge 15 Rear blade edge 15a Blade edge radius 16 Bristle filament 17 Separation edge 17a Separation edge radius 18 Arcuate separator 19 Tuft-picking disk 20 Flat side of 8 21 Blade edge chamfer 22 Blade edge arc 23 Run-in ramp 24 Notch edge 24a Notch edge radius 25 Separation edge chamfer 26 Separation edge arc 27 Upper side of 9 28 Lower side of 9 29 End side 30 End face 31 End chamfer on 30 31a Chamfer edge on 31 32 Box side of 9 33 Picker side of 9 34 First portion of 32 34a First radius 35 Second portion of 32 35a Second radius 36 Measuring tip 37 Adjustment device 38 Adjustment plate 39 Internal face of 12 40 Lateral front face on 32, 33 41 Lateral chamfer on 32, 33 41a Chamfer edge on 41 42 Free end of 34 43 Picker chamfer 44 Run-in chamfer on 9
