• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    As an improvement in the field of brush production, among other things, the method for the production of brushes (15) is proposed, wherein bristle carriers (3) on transport units (6) along a closed transport path (5) evenly distributed and equidistant stations (2, 8, 10, 12, 13, 14) for handling and / or processing. It is provided that the bristle carrier (3) with the transport units (6) on their way between two in the processing cycle successive stations (2, 8, 10, 12, 13, 14) at least one station (2, 8, 10, 12 , 13, 14) are passed without stopping at this. The transport units (6) terminate the processing cycle preferably at a constant transport step size at the same station (2, 8, 10, 12, 13, 14) on which they have also started the processing cycle. This station (2, 8, 10, 12, 13, 14) is preferably an infeed removal station (14)
    公开号:BE1025474B1
    申请号:E2018/5074
    申请日:2018-02-07
    公开日:2019-03-18
    发明作者:Christoph Albrecht
    申请人:Zahoransky Ag;
    IPC主号:
    专利说明:

    Method of making brushes and brush making machine
    The invention relates to a method for producing brushes, bristle carriers, in particular brush bodies, clocked on transport units of a transport device along a closed transport path and evenly distributed and equidistant stations for handling and / or
    Processing can be fed.
    Furthermore, the invention also relates to a brush production machine with a plurality of stations for handling and processing bristle carriers, in particular brush bodies, and a transport device for transporting the bristle carriers between the stations.
    Such methods and brush manufacturing machines are different from the prior art
    Embodiments known. In this case, transport devices referred to as transport chain systems are also used, which generally have an even number of transport units and on which at least one bristle carrier can be placed in each case. These transport units are transferred to an immediately following one after each processing cycle
    Station transported further to a next one following in the machining cycle
    Perform the processing step on the bristle carrier clamped on the transport unit.
    BE2018 / 5074
    Especially when the bristle carriers are to be processed or handled at a large number of individual stations and only comparatively little
    If there is space available for the brush manufacturing machine, the individual stations may be arranged comparatively close to one another. Since the transport units have to be moved to a next station after each processing cycle, it is necessary to first accelerate the transport units as quickly as possible and then brake them immediately afterwards so that they can be stopped at the next station for processing.
    Due to the comparatively high
    Acceleration forces and the associated
    Alternation between positive and negative
    Acceleration can be high mechanical
    Burdens in particular the
    Transport devices of this
    Brush making machines occur that should be avoided.
    The object of the invention is therefore to provide a method and a brush production machine of the type mentioned at the outset, with which the mechanical loads, in particular of the transport device, can be reduced.
    This object is achieved by the method for producing brushes with the means and features of the independent claim directed to the method for producing brushes. In particular, a method for producing brushes is proposed to achieve this object, bristle carriers,
    BE2018 / 5074 in particular brush bodies, clocked on transport units of a transport device along a closed transport path and evenly distributed and equidistant stations for handling and / or
    Processing are supplied, the bristle carrier with the
    Transport units with one
    Transport step width between the successive in the machining cycle
    Stations are moved that are a multiple or multiples of a station distance between two along the
    Transport path corresponds to immediately adjacent stations, so that the bristle carrier with the
    Transport units are moved past at least one station on their way between two successive stations in the machining cycle, without stopping at it. Two stations in succession in the machining cycle are therefore not directly adjacent to one another
    Transport track arranged.
    The distance between two stations immediately adjacent along the transport path, which is also referred to as the station distance in the context of the claimed technical teaching, corresponds to the length of a transport path between these two stations.
    In the context of the claimed technical teaching, the number of transport steps in a transport step between two successive processing steps of a processing cycle in relation to a transport unit or one
    BE2018 / 5074
    Bristle carriers understood the distances between the stations. If three station distances are covered between two processing steps that follow one another in a processing cycle, the transport step width takes the value three.
    The transport step width thus also corresponds to the number n of stations skipped in one transport step between two successive processing steps of a processing cycle plus one. The following relationship also applies: TSW = n + 1, where TSW stands for the transport step width and n for the number of stations skipped in a transport step. In the previous example, three station distances are covered, with two stations being skipped. This results in a transport step size TSW = 2 + 1 = 3.
    With the method according to the invention, the
    Railway line on which the transport units between the successive in the machining cycle
    Stations have to be moved, so that an immediate transition from positive to negative acceleration, which can represent a peak load, is avoided. In this way, the transport units can be moved with less jerk between the stations of the brush production machine and a mechanical load on the transport device can be reduced.
    It is particularly preferred if each transport unit in the manner described above each of the
    BE2018 / 5074
    Completion of a machining cycle starts the required station at least once and, after the machining cycle has been completed, reaches the same station at which the machining cycle began by inserting bristle carriers. This station can then function as an insertion and removal station.
    The transport units can run particularly smoothly along the transport path if the transport units are moved in synchronism along the transport path between the stations. For this purpose, it can be expedient if the transport units are moved coupled along the transport path. It is conceivable to mechanically couple the transport units to one another. Then it is possible to drive the mechanically coupled transport units by means of a central drive. As coupling elements, for example, chains or articulated rods or also connecting rails between the transport units can be used.
    However, it is also conceivable to couple the transport units to one another electronically. It can be provided that the transport units are each equipped with their own drive and are coupled electronically, preferably in synchronism, along the transport path between the stations.
    A smooth running of the transport units along the
    BE2018 / 5074
    The transport path and the associated lower load on the bristle carriers arranged on the transport units can be achieved if the transport units are moved along the transport path with a constant transport step width.
    In order to select the transport step size described above, in which at least one station is skipped by the transport units on the way between two stations that follow one another in the machining cycle, and to reach each required station at least once, it may be expedient if the bristle carriers at an odd total number of stations edited and / or handled. It is also possible here for the bristle carriers to be processed or handled by a total number of stations which corresponds to a prime number. If the total number of stations from which the bristle carriers are processed or handled corresponds to a prime number, it is possible that the transport units with a transport step width of n, in which n - 1 stations are skipped, are moved along the transport path and within n Circulations around the closed transport path return to their starting position or starting point from which they started their circulation around the transport path. Here n is an integer that is not equal to the total number of stations. In addition, the number n is relatively prime or relatively prime to the number or prime number that corresponds to the total number of stations present. The
    BE2018 / 5074
    The starting point can be the insertion and removal station mentioned above.
    This has the advantage that the transport step width can be changed in order to make the running of the transport units along the transport path even less jerky, even then each of the stations required for complete processing of the bristle carriers is reached in a correspondingly higher number of rotations , This is done in such a way that one and the same starting point can always be reached after a complete run of a machining cycle, in which all the required stations have been approached by a transport unit, and the machining cycle can be ended.
    It is therefore possible for the transport units to begin their circulation around the transport path at a station functioning as a starting station and, once they have reached all the stations required for the completion of a machining cycle, to end their circulation again at the station functioning as a starting station. The start station, which is also the end station of a processing cycle, can be a combined inserting and
    Be removal station, special brush body, placed on the bristle carrier, in particular for the production of brushes in the brush manufacturing machine and after
    Completion of the processing from the
    Brush manufacturing machine can be removed again.
    BE2018 / 5074
    In order to be able to end a machining cycle, the transport units run around the transport path more than once until they have reached their starting position or starting station again.
    It can further be provided that an odd number of transport units is moved along the transport path. It is also possible for a number of transport units to be moved along the transport path which corresponds to a prime number. For example, it is possible to move 23 transport units along a transport path. However, it is also conceivable that a number of the transport units that are moved along the transport path match the number of stations.
    For example, 23 stations can be evenly distributed and equidistant from one another along the transport path, while 23 transport units, on each of which at least one bristle carrier can be arranged for processing, in particular can be stretched, are moved along the transport path between the 23 stations.
    The total number of stations at which the bristle carriers are processed and the transport step width, measured in terms of the number of station distances covered in one transport step, can preferably be relatively prime or relatively prime.
    BE2018 / 5074
    Non-prime or relatively prime means that for two natural numbers there is no natural number other than the 1 that divides both numbers. In other words, two natural numbers are prime if they do not have a common prime factor. The greatest common divisor of the two numbers can be determined, for example, to prove that there are no divisors. The two numbers are prime to each other if and only if the number 1 is their greatest common divisor.
    Are the total number of stations at which the
    Bristle carriers are edited, and the
    Transport step width prime or relatively prime, it is possible to
    Transport units along the
    Transport path with the selected transport step width between the
    To move stations that the
    Transport units only return to their starting position when each of the existing stations with the transport units has been reached at least once or approached by them and the processing cycle has been completed.
    The jerk-free running of the transport units on their way between two stations that follow one another in the machining cycle, but are not directly adjacent to one another along the transport path, can be favored if the transport units are at least temporarily moved at a constant speed. In this case, the transport step width can be determined by the transport units between two processing operations that follow one another in the processing cycle
    BE2018 / 5074 or handling steps and / or stations is covered, at least twice, three, four times or more than one station distance between two immediately adjacent stations.
    If the transport increment corresponds to twice the station distance between two immediately adjacent stations, one station is skipped at a time. If the transport increment corresponds to three times the distance between two immediately adjacent, equidistant stations, a transport increment always skips two stations.
    The bristle carriers can be provided with bristle bundles made of conventional bristle filaments at at least one station. Conventional bristle filaments can be understood to mean those bristle filaments which have a cross section which is substantially constant along their longitudinal extent. At at least one other station, the bristle carriers can be provided with bundles of bristles made of pointed bristle filaments. Tipped bristle filaments can be, for example, chemically tipped bristle filaments or mechanically tipped bristle filaments.
    The bristle bundles made of conventional bristle filaments can be sheared off at one station and optionally ground at another station.
    The bristle carriers can be placed on the transport units at one station. This station
    BE2018 / 5074 can be the aforementioned starting position or
    Starting point of the
    Transport units on your
    Circulation along the
    Define the transport path.
    The
    Bristle holders can be on the same
    Station of the
    Transport units can be removed again.
    Then this station can be a so-called
    Einlegeund
    Removal station.
    The object defined at the outset is also achieved by a brush manufacturing machine with the means and features of the independent claim directed to the brush manufacturing machine. In particular, to solve this problem, a brush production machine is proposed which has a plurality of stations for handling and processing bristle carriers, in particular brush bodies, and with a transport device for
    Transport the
    Bristle carrier is provided between the stations, the stations being equidistant and evenly distributed
    Transport path of the on a closed revolving
    Transport device are arranged, and wherein the transport device has a plurality of transport units movable along the transport path between the stations, on each of which at least one bristle carrier can be arranged.
    The transport units can be coupled to one another. This can be done in particular mechanically and / or electronically. With a mechanical coupling of the transport units to one another, for example, transport chains or connecting rails or connecting rods can be used
    BE2018 / 5074
    Come into play. The transport path can be formed by a closed, circumferential guide rail, along which the transport units can be moved. In the case of a mechanical coupling of the transport units in particular, a central drive can be used, which drives the mechanically coupled
    Transport units set in motion.
    The brush making machine can have an odd total number of stations. The brush making machine can have a total number of stations that corresponds to a prime number.
    It is also possible that the brush manufacturing machine has an odd number of transport units. It is also possible for the brush production machine to have a number of transport units which corresponds to a prime number. In order to be able to assign a transport unit to each station in each processing step and to avoid idling, it is advantageous if the number of transport units matches the total number of stations. Thus, a transport unit can be arranged at each station in each processing cycle in order to be able to process and / or handle at least one bristle carrier at each station.
    The brush production machine can have at least one station which is set up as a tamping station for tamping conventional bristle filaments. Conventional bristle filaments are understood to mean those along one of their longitudinal dimensions
    BE2018 / 5074 have a substantially constant cross section. The brush manufacturing machine can also have at least one station which is set up as a tamping station for tamping pointed bristle filaments.
    The brush manufacturing machine can also have, as one of the stations, at least one shearing station, one grinding station, one insertion station and / or one insertion-removal station. It can be particularly expedient if the brush production machine is set up to carry out the method according to one of claims 1 to 10.
    Of course, stations other than those expressly mentioned above can also be used on the brush manufacturing machine. It is conceivable that additional shearing or grinding stations, cleaning stations, embossing or labeling stations or other stations are arranged as stations along the transport path.
    As an improvement in the field of brush production, the method for producing brushes is proposed, among other things, wherein bristle carriers on transport units are fed along uniformly distributed and equidistant stations for handling and / or processing along a closed transport path. It is provided that the bristle carrier with the transport units on their way between two in the machining cycle
    BE2018 / 5074 consecutive stations are moved past at least one station without stopping at it. The transport units preferably end the machining cycle, in particular with a constant transport step width, at the same station at which they also started the machining cycle. This station is preferably an insertion-removal station at which the bristle carriers are placed on the transport units and are removed from them again after processing.
    Based on the following
    Drawing is one
    Embodiment of the invention described in more detail.
    They show in a highly schematic representation:
    Fig. 1 is a highly schematic plan view of a brush manufacturing machine according to the invention with a total of seven individual stations, a transport device with a total of seven transport units rotating on a closed transport path and a central drive which drives the mechanically coupled transport units, and
    Fig. 2 marked with the circle K in Figure 1
    Detail in an enlarged view.
    FIG. 1 shows a brush manufacturing machine, designated as a whole by 1, with seven stations 2 for handling and processing bristle holders 3. The bristle holders 3 are in the exemplary embodiment with
    BE2018 / 5074
    Bristle bundles 3a brush bodies to be clogged.
    The brush making machine 1 also has one
    Transport device 4 for transporting the bristle carrier between the
    Stations 2 are constant
    Stations 2 on. The individual equidistant to each other, i.e. with
    Station distance from each other, and evenly distributed on a closed, circumferential, composed of individual guide rails
    Transport path 5 of the transport device 4 arranged.
    The transport device 4 also has one
    Majority, here a total of seven, along the
    Transport track 4 between the
    Stations 2 movable
    Transport units 5 on. A bristle carrier 3 can be arranged on each of the transport units 5. The transport units 5 are driven by a central drive
    4a of the transport device 4 set in motion.
    The transport units 5 are mechanically coupled to one another. For this purpose, the transport units 5 are connected to one another with connecting rails 7. The
    Brush making machine has an odd total of
    Stations 2 on. In addition, the total number of stations 2, which is seven here, corresponds to a prime number.
    The brush manufacturing machine 1 also has an odd number of transport units 6, namely a total of seven transport units. The number of transport units thus corresponds to a prime number and is also correct with that
    BE2018 / 5074
    Total number of stations 2 match.
    The brush manufacturing machine 1 has a total of two stations 2, which are set up as a tamping station 8 for tamping conventional bristle filaments 9. The brush manufacturing machine 1 also has two stations 2, which are set up as stuffing stations 10 for stuffing pointed bristle filaments 11. The difference between the pointed bristle filaments 11 and the conventional bristle filaments 9 can be seen well in the enlarged detail shown in FIG. It is striking here that the pointed bristle filaments 11 are those bristle filaments whose cross-section tapers in the direction of their longitudinal extension. Conventional bristle filaments 9 are bristle filaments in which their cross section remains essentially constant over the longitudinal extent of the bristle filaments.
    In addition to the stations 2 described above, the brush manufacturing machine 1 also has at least one shearing station 12 and one grinding station 13 for processing conventional bristle filaments 11. The station 2 provided with the reference numeral 14 is an insertion-removal station, on which bristle carriers 3 can be placed on transport units 6. This insertion / removal station 14 thus represents the starting point and also the end point of a machining cycle. After the transport units 6 have traveled to each of the remaining stations 2 once, they finally arrive after the end of one
    BE2018 / 5074
    Processing cycle with the finished bristle carrier 3 back to the insertion-removal station 14, where the bristle carrier 3 can then be removed.
    The
    Brush making machine 1 is for performing the following
    Procedure set up.
    to
    Manufacture of brushes is provided that the bristle carrier 3
    Transport units 6 of
    Transport device clocked along the closed transport path evenly distributed and equidistant stations
    2, 8,
    10, 12, 13, 14 for
    Handling and / or processing can be supplied.
    The bristle carrier 3 with the transport units with a transport increment between the in
    Machining cycle consecutive
    stations
    2, 8, 10, 12, 13, moves one
    Multiple or multiple of the station distance between two immediately adjacent along the transport path 5
    Stations 2, 8, 10, 12, 13. This is so that the bristle carrier 3 with the
    Transport units on their way between two in
    Machining cycle of successive stations
    2,
    8, 10, 12,
    13, 14 at at least one station 2, 8,
    10
    12, 13, are moved past without being stopped at this.
    The transport units 6 are in synchronism along the transport path between the
    Stations 2,
    8, 10, 12, 13, 14 moves. Here are the
    Mechanical transport units
    BE2018 / 5074 coupled and are moved with a constant transport step width, which in the present case corresponds to twice the station distance between two stations 2, 8, 10, 12, 13, 14 arranged next to one another along the transport path 5.
    The transport units 6 begin their circulation around the transport path 5 at the station 2 functioning as the starting station, which was also previously described as the insertion / removal station 14. After the transport units 6 have reached all the stations 2, 8, 10, 12, 13 required for the completion of a machining cycle exactly once, they end their circulation again at the station 14 functioning as the starting station.
    The bristle carriers 3 are processed and / or handled at an odd total number of stations 2. As already stated above, there are a total of seven stations 2, so that the bristle carriers 3 are processed or handled by a total number of stations 2 which corresponds to a prime number.
    As also previously stated, an odd number, namely seven, of transport units 6 is moved along the transport path 5. A number of transport units 6 is thus moved along the transport path 5, which corresponds to a prime number. Furthermore, the number of transport units 6 is correct with the total number of stations 2 at which the
    BE2018 / 5074
    Bristle holder 3 are processed and / or handled.
    The total number of stations 2, 8, 10, 12, 13, 14 and the transport increment measured in terms of the number of station distances covered between two stations 2, 8, 10, 12, 13, 14 and two processing steps is relatively prime or also relatively prime. In the present case, it is provided that there are a total of seven stations 2, 8, 10, 12, 13, 14 and the transport step width is two. The transport step width corresponds to the number of station distances covered by a transport unit 6 between two processing or handling steps following one another in the processing cycle and between two stations 2, 8, 10, 12, 13, 14 which follow one another in the processing cycle and which are not directly adjacent to one another on the transport path 5 are arranged.
    The transport units 6 are at least temporarily moved at a constant speed on their way between two stations 2, 8, 10, 12, 13, 14 following one another in the machining cycle. The transport step distance traveled by the transport units 6 between two stations 2, 8, 10, 12, 13, 14 following one another in the machining cycle corresponds here to twice the station distance between two immediately adjacent stations 2, 8, 10, 12, 13, 14.
    The bristle carriers 3 are designated at 8
    BE2018 / 5074
    Station with bristle bundles 3a made of conventional bristle filaments 9, that is to say those which have a substantially constant cross section along their longitudinal extension. At the stations denoted by 10, the bristle carriers 3 are provided with bristle bundles 3a made of pointed bristle filaments 11.
    At the insertion-removal station designated 14, the bristle carriers 3 are placed on the transport units 6. The bristle carriers 3 are removed again by the transport units 6 at the same station 14 and the processing cycle is ended. In a processing cycle, the individual stations 2 are approached by the transport units 6 in the following order:
    First, the transport units 6 reach the insertion-removal station 14, where they are loaded with bristle carriers 3. Then they skip the station 13 and arrive at the first tamping station 8, where the bristle carriers 3 are equipped with bristle bundles 3a made of conventional bristle filaments 9. The transport units 5 then skip over the station 10 and are stopped again at the second tamping station 8. After the bristle carriers 3 have been provided with further bristle bundles 3a made of conventional bristle filaments 9, the transport units 6 are moved on to the shearing station 12. Before they reach the grinding station 13, where the bristle bundles 3a are ground from conventional bristle filaments 9, they pass through the
    BE2018 / 5074
    Insert-removal station 14 without stopping and have circled the transport path 5 for the first time. In subsequent transport steps, the two stations 10 are reached, where the bristle carriers 3 are stuffed with bristle bundles 3a made of pointed bristle filaments 11. The brushes 15 are then finished and are moved together with the transport units 6 back to the insertion / removal station 14, where the brushes 15 are removed from the brush production machine 1 and the processing cycle is ended. At this time, the transport units 6 have circled the transport path 5 twice. Then a new processing cycle begins by placing a new bristle carrier 3 on the freed transport unit 6.
    As an improvement in the field of brush production, the method for producing brushes 15 is proposed, among other things, bristle carriers 3 being uniformly distributed and equidistant stations 2, 8, 10, 12, 13, 14 for handling and / on transport units 6 along a closed transport path 5. or processing. It is provided that the bristle carriers 3 with the transport units 6 are moved past at least one station 2, 8, 10, 12, 13, 14 on their way between two successive stations 2, 8, 10, 12, 13, 14 in the machining cycle without stopping at it. The transport units 6 preferably end the machining cycle at a constant transport step width at the same station 2, 8, 10, 12, 13, 14 at which they also complete the machining cycle
    BE2018 / 5074 have started. This station 2, 8, 10, 12, 13, 14 is preferably an insertion-removal station 14.
    BE2018 / 5074
    LIST OF REFERENCE NUMBERS
    Brush manufacturing machine
    stations
    bristle carrier
    3a bristle bundle
    transport device
    4a drive from 4
    10 5 transport path6 transport unit7 connecting rail8th tufting9 Conventional bristle filaments 15 10 tufting11 Pointed filaments12 Abscherstation13 grinding station14 Loading unloading station 20 15 brush
    权利要求:
    Claims (17)
    [1]
    Expectations
    1. A method for producing brushes (15), bristle carriers (3), in particular brush bodies (3), on transport units (6) of a transport device (4), clocked along a closed transport path (5) and evenly distributed and equidistant stations (2, 8 , 10, 12, 13, 14) for handling and / or processing, the bristle carriers (3) with the transport units (6) having a transport increment between the stations (2, 8, 10, 12, 13 , 14) which corresponds to a multiple or multiples of a station distance between two stations (2, 8, 10, 12, 13, 14) immediately adjacent along the transport path (5), so that the bristle carriers (3) with the transport units (6 ) on their way between two successive stations in the machining cycle (2, 8, 10, 12, 13, 14) past at least one station (2, 8, 10, 12, 13, 14) without stopping at it.
    [2]
    2. The method according to claim 1, characterized in that the transport units (6) are moved in synchronism along the transport path (5) between the stations (2, 8, 10, 12, 13, 14) and / or that the transport units (6 ), in particular mechanically and / or electronically, coupled along the transport path (5) and / or that the transport units (5)
    BE2018 / 5074 can be moved with a constant transport increment.
    [3]
    3. The method according to claim 1 or 2, characterized in that the transport units (6) begin their circulation around the transport path (5) at a station (2) functioning as a starting station and after they have all the remaining stations required for the completion of a processing cycle ( 2, 8, 10, 12, 13) have reached exactly once, end their circulation again at the station (14) functioning as the starting station, in particular wherein the transport units (6) circle the transport path (5) more than once in order to complete a processing cycle break up.
    [4]
    4. The method according to any one of claims 1 to 3, characterized in that the bristle carrier (3) at an odd total number of stations (2, 8, 10, 12, 13, 14) are processed and / or handled and / or that the bristle carrier (3) processed or handled by a total number of stations (2) which corresponds to a prime number.
    [5]
    5. The method according to any one of claims 1 to 4, characterized in that an odd number of transport units (6) is moved along the transport path (5) and / or that a number of transport units (6) is moved along the transport path (5) , which corresponds to a prime number, and / or that a number of transport units (6), which along the
    BE2018 / 5074
    Transport path (5) are moved, corresponds to the number of stations (2).
    [6]
    6. The method according to any one of claims 1 to 5, characterized in that the total number of stations (2, 8, 10, 12, 13, 14) at which the bristle carriers (3) are processed or handled, and the transport step width measured in a number of station distances covered in a transport step are prime to the prime mover or relatively prime.
    [7]
    7th
    Method according to one of claims 1 to 6, characterized in that the
    Transport units (6) on their way between two successive machining cycles
    Stations (2, 8, 10, 12,
    13, 14) at least at times with a constant
    Speed to be moved.
    [8]
    8th.
    Method according to one of claims 1 to 7, characterized in that the
    Transport increment by the
    Transport units (6) between two in
    Machining cycle consecutive
    Machining and / or
    Handling steps and / or stations (2,
    8, is covered, corresponds to at least twice, three times, four times or more than one station distance between two immediately adjacent stations (2, 8, 10, 12, 13, 14).
    BE2018 / 5074
    [9]
    9. The method according to any one of claims 1 to 8, characterized in that the bristle carrier (3) at at least one station (8) with bristle bundles (3a) made of conventional bristle filaments (9), in particular have a substantially constant cross section along their longitudinal extent , and at least one other station (10) with bristle bundles (3a) made of pointed bristle filaments (11), in particular stuffed.
    [10]
    10. The method according to any one of claims 1 to 9, characterized in that the bristle carrier (3) at one station (14) are placed on the transport units (6), in particular wherein the bristle carrier (3) at the same station (14) of the Transport units (6) can be removed again.
    [11]
    11. Brush production machine (1) with a plurality of stations (2) for handling and processing bristle carriers (3), in particular brush bodies (3), and a transport device (4) for transporting the bristle carriers (3) between the stations (2), wherein the stations (2) are arranged equidistantly and evenly distributed on a closed circulating transport path (5) of the transport device (4), and wherein the transport device (4) comprises a plurality of transport units that can be moved along the transport path (5) between the stations (2) (6), on each of which at least one
    BE2018 / 5074
    Bristle carrier (3) can be arranged.
    [12]
    12. Brush manufacturing machine (1) according to claim 11, characterized in that the transport units (6) are coupled to one another, in particular mechanically and / or electronically.
    [13]
    13. Brush manufacturing machine (1) according to claim 11 or 12, characterized in that the brush manufacturing machine (1) has an odd total number of stations (2) and / or that the brush manufacturing machine (1) has a total number of stations (2), one Prime number.
    [14]
    14. Brush production machine (1) according to one of claims 11 to 13, characterized in that the brush production machine (1) has an odd number of transport units (6) and / or that the brush production machine (1) has a number of transport units (6), which corresponds to a prime number and / or that the number of transport units (6) corresponds to the total number of stations (2).
    [15]
    15. Brush manufacturing machine (1) according to one of claims 11 to 14, characterized in that the brush manufacturing machine (1) has at least one station (2) which is set up as a darning station (8) for darning conventional bristle filaments (9), and / or that the brush manufacturing machine (1) at least one
    BE2018 / 5074
    Has station (2) which is set up as a darning station (10) for darning pointed bristle filaments (11).
    [16]
    16. Brush manufacturing machine (1) according to one of claims 11 to 15, characterized in that the brush manufacturing machine (1) as one of the stations (2) at least one shearing station (12), a grinding station (13), an insertion station and / or an insertion - Removal station (14).
    [17]
    17. Brush manufacturing machine (1) according to one of claims 11 to 16, characterized in that the brush manufacturing machine (1) is set up to carry out the method according to one of claims 1 to 10.
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    同族专利:
    公开号 | 公开日
    BE1025474A1|2019-03-12|
    DE102017105963A1|2018-09-20|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    EP0563419A1|1992-03-31|1993-10-06|G.B. Boucherie, N.V.|Method of producing brushes|
    DE102014103599A1|2013-03-29|2014-10-02|Gb Boucherie Nv|Machine for the production of brushes|
    DE102015008583B3|2015-07-02|2016-09-15|Zahoransky Ag|Brush manufacturing machine|
    法律状态:
    2019-05-02| FG| Patent granted|Effective date: 20190318 |
    优先权:
    申请号 | 申请日 | 专利标题
    DE102017105963.6|2017-03-20|
    DE102017105963.6A|DE102017105963A1|2017-03-20|2017-03-20|Method of making brushes and brush making machine|
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