JP2012122185A - Method of creating knitted fabric pattern described by knitting data in plurality of processing stages - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an improved method of creating a knitted fabric pattern.SOLUTION: A method of creating a knitted fabric pattern (10) described by knitting data in a plurality of processing stages, comprises, at least in follow-up processing stages (2, 3) following an initial processing stage, or when transferring from the initial processing stage to the follow-up processing stages (2, 3), or when transferring from one of the follow-up processing stages (2, 3) to the other of the follow-up processing stages (2, 3), particularly and automatically marking a position (16) at which the knitting data is changed, in the knitted fabric pattern (10) for which the knitting data is to be changed.

Description

  The present invention relates to a method for creating a knitted pattern described by knitting data in a plurality of processing stages, and a design apparatus for designing a knitted pattern manufactured by a knitting machine in a plurality of processing stages.

  The creation of a knitted pattern for a flat knitting machine is basically performed in a plurality of stages when the system automatically assists the pattern creation. In the first processing stage (starting process stage), the appearance of the knitted pattern is defined. Furthermore, the knitting technique to be used is defined.

  The knitted pattern is changed in one of the subsequent processing stages (follow-up processing stage) or in a plurality of processing stages when transitioning to one processing stage. These changes can be made automatically by the design device or by the user.

  Each processing stage is an approach from the abstract knitting pattern description to the knitting machine control data. In a patterning system including an automatic device, at least two processing steps are required for pattern generation. Although there is always the goal of making all the inputs in the first processing stage as much as possible when creating the pattern and transmitting the knitting machine control program to produce the knitted pattern after the last processing stage to the knitting machine, Often there is a need to make changes during the processing stage. The reasons are diverse. However, most places are blue. In order to obtain the desired result in the knitting machine control data, there is a problem that the input in the first processing stage is not possible for a specific situation.

  At that time, the following problems arise for the user. That is, as soon as the knitted pattern is corrected in the next processing stage, the user's input is lost when the preceding processing stage is loaded. Even for a knitted pattern that has not been changed in the next processing stage, the user cannot be sure that data has been lost as soon as the preceding processing stage is loaded. Therefore, changes at different points must be documented by the user.

  An object of the present invention is to provide a method and a design apparatus in which the above limitation does not occur.

  In order to solve this problem, a method for creating a knitted pattern described by knitting data in a plurality of processing stages, at least in a follow-up process stage following a start process stage, or from a start process stage to a follow-up process stage or one In the transition from the follow-up process stage to another follow-up process stage, the knitting pattern knitting data is changed. According to the present invention, the position at which the knitting pattern is changed when the knitting data is changed. Is marked automatically. In particular, every change in the knitting pattern knitting data performed in the processing stage after the first processing stage (not necessarily the processing stage immediately following the first processing stage), all the changed pattern positions are accurately determined. It can be marked at the raster position. Therefore, it is immediately understood that the knitting data at the processing stage has been changed. In that case, for example, after the transfer process has been entered, the appropriate position of the knitted pattern to be transferred can be marked or made to stand out. In particular, the knitted pattern can be displayed in the symbol display, for example as a yarn course display, as a surface display or as a color display, and the changed position can be highlighted with light, especially color. In the display device of the design device, for example, the position can be visualized by a green frame. Only drawings are created as much as possible at the start processing stage, and there is no possibility of storing changes.

  A special advantage arises if one state is assigned to each follow-up process stage. For example, when a follow-up process stage is loaded, it can indicate the state “not changed”. However, if the knitting data is changed in the follow-up process stage, the state “changed” can be assigned to this follow-up process stage. For example, the follow-up process stage is displayed on the display device of the design device, and if a change is made at this stage, the entire follow-up process stage is marked as changed. Thereby it is clear to the user that the change has been lost when the processing stage preceding the follow-up process stage is reloaded. When transitioning to the next follow-up processing stage, it is possible to always always assign the state “not changed” to this stage. Thereby it is always known exactly whether the changes have been lost during the loading of a particular follow-up process stage. In this connection, it is particularly advantageous if the state assigned to the follow-up process stage is displayed on the display device. For example, when the knitted pattern is changed in the first follow-up process stage and then transferred to the next follow-up process stage, the first follow-up process stage is displayed in the state “changed”. Thereby, the changes are lost when reloading the start process stage preceding the first follow-up process stage, but not when loading the first follow-up process stage. This is because this first follow-up stage is stored with the changed data. For the start processing stage, no state is assigned to this stage.

  According to an advantageous method variant, the changes made can be stored separately. These changes can then be used again. For example, changes made in the first follow-up process stage can be stored. The start processing stage could then be loaded. After re-entering the first follow-up process stage, the previously stored changes can be reloaded and used.

  Further, it is possible to classify whether the change is automatically performed by the design apparatus or the user and to store the change. Thereby, it is possible to know whether or not the change has been brought about by the design apparatus during the transition from one processing stage to the next following processing stage or whether or not the change has been made by the user.

  The knitting data corresponding to the processing stage (start processing stage or follow-up processing stage) is stored. Thereby, the knitting data at the processing stage can also be loaded again and subsequently changed. By making the change stand out, the knitted pattern can be loaded by a third party without problems and then processed and changed. The method according to the invention saves a lot of time. There will be no documentation that takes time to change in the continuing processing stage.

  A design apparatus for designing a knitted pattern manufactured by a knitting machine in a plurality of processing stages included in the scope of the present invention includes at least one storage device that stores knitting data necessary for describing the knitted pattern, and at least one process. At least one display device for displaying at least one symbol display of the knitted pattern in the stage and at least one input device for changing the at least one symbol display, and the knitted pattern in the follow-up process stage following the start process stage A mark is provided to mark the position where has been changed. The mark can be displayed on the display device and stored together with the knitting data at the follow-up process stage. Thereby the changes remain understandable and do not need to be documented separately.

  A special advantage arises if state assignment means are provided for assigning one state to the follow-up process stage. For example, when a follow-up stage is first loaded, the state “not changed” is assigned to this stage. However, if the knitting data is changed in the follow-up process stage, the state “changed” is assigned to this follow-up process stage.

  A special advantage arises if the state of the follow-up processing stage can be displayed on the display device. This allows the user to easily know whether or not changes are likely lost when loading the preceding processing stage.

  Furthermore, only the change of the knitted pattern at the follow-up process stage can be stored and can be loaded as the process stage. Thereby, a process stage that is not changed can be loaded, and in addition to this process stage, changes previously made by another process stage can be loaded and taken over by the process stage just loaded.

  Other features and advantages of the present invention will become apparent from the following description of the embodiments of the invention and the claims, taken in the drawings of the drawings showing details that are important to the invention. It should be understood that the features shown are not necessarily to scale, and the features according to the present invention are shown clearly. Each of the various features can be realized alone or in any combination in a variation of the invention.

  Embodiments of the invention are shown in the schematic drawings and are described in detail below.

  A part of the yarn course display of the knitted pattern in one processing stage is shown.   Fig. 4 shows a schematic display for explaining the assignment of states to individual processing stages.   Fig. 5 shows another display for explaining the work in different processing stages.

  FIG. 1 shows a part of the yarn course display of the knitted pattern displayed on the display device. In the indicated yarn course display of the knitted pattern 10, four columns 11 to 14 are shown. In rows 11, 13 and 14, the knitting operations for the individual needles are shown. A transfer operation is shown in the knitting row 12, which is implied by an arrow 15. At position 16, a transfer was entered by the user. Therefore, position 16 was marked by frame 17. In this way, the user can see what changes have been made at what position at a later time. This change can be stored by the entire knitting data of the knitted pattern 10. However, it is also possible to store only this change separately with the attached position data. This information can then be loaded at a later time as a knitted pattern at the processing stage, so that the same changes are made for this knitted pattern at this processing stage.

  In FIG. 2, reference numeral 1 indicates a start processing stage, and reference numeral 2 indicates a follow-up processing stage. The display shown in FIG. 2 can be similarly displayed on the display device of the design apparatus. Arrow 18 indicates that follow-up process stage 2 results from a transition from start process stage 1. Arrow 19 indicates that follow-up process stage 2 is just an active process stage in which changes can be made. The follow-up process stage 2 is hatched, thereby expressing that the follow-up process stage 2 has the state “changed”. Thus, if the follow-up process stage 2 is active, if a change is made at this stage, the whole follow-up process stage is hatched in this example, so that the entire follow-up process stage is marked as changed. The Thereby it can be seen that the changes are lost during the re-loading of the start processing phase 1. Thus, for example, when a change is made as shown in FIG. 1, the corresponding follow-up process stage takes another state, ie the state “changed”.

  As can be seen from the foregoing, the state of the follow-up process stage is changed only after the follow-up process stage 2 is changed. When moving from the start processing stage 1 to the follow-up process stage 2, the follow-up process stage 2 is always initially assigned the state “not changed”, which can be seen by no hatching. Thus, it is always known exactly whether changes are lost when loading a particular processing stage.

  In the embodiment shown in FIG. 3, the follow-up process stage 2 has been changed, and subsequently moved to the follow-up process stage 3. An arrow 19 points to the follow-up process stage 3 to indicate that this is an active process stage. The follow-up process stage 2 is hatched, so that it becomes clear that the state "changed" is assigned to this process stage.

  Thereby it can be seen that the changes are lost during the re-loading of the start processing stage 1 but are not lost during the loading of the processing stage 2. This is because the change in the follow-up process stage 2 is stored by this.

  Changes made in the knitted pattern can be stored separately and used again. Therefore, the change in the follow-up process stage 2 can be stored. Subsequently, start processing phase 1 could be loaded. After the transition again to follow-up process stage 2 (in this case indicated by the state “not changed”), the previously stored change can be loaded again as follow-up process stage 2 and applied to this follow-up process stage. it can. In this case, the state of the follow-up process stage 2 changes again to the state “changed”.

Claims (12)

  A method for creating a knitted fabric pattern (10) described by knitting data in a plurality of processing stages as a follow-up process stage (2, 3), the follow-up process stage (2, 3) following at least a start process stage (1) Or at the transition from the start processing stage (1) to the follow-up process stage (2, 3), or from one follow-up process stage (2, 3) to another follow-up process stage (2, 3) When the knitting data of the knitted pattern (10) is changed, the position (16) where the change has been made in the knitted pattern (10) is particularly automatically marked when the knitting data is changed. And how to.   2. Method according to claim 1, characterized in that the knitted pattern (10) is displayed symbolically and the position (16) where the knitted pattern is changed is highlighted by light, in particular by color.   Method according to one of the preceding claims, characterized in that one state is assigned to each follow-up processing stage (2, 3).   4. Method according to claim 3, characterized in that the status "changed" is assigned to this follow-up process stage when the knitting data is changed in one follow-up process stage (2, 3).   5. Method according to claim 3 or 4, characterized in that the state assigned to the follow-up processing stage (2, 3) is displayed on a display device.   Method according to one of the preceding claims, characterized in that the changes made are stored separately.   The method according to claim 6, characterized in that the changes are stored by classifying whether the changes were made automatically by the design device or by the user.   Method according to one of the preceding claims, characterized in that knitting data corresponding to the processing stage (1, 2, 3) is stored.   A design device for designing a knitted pattern manufactured by a knitting machine in a plurality of processing stages, at least one storage device for storing knitting data necessary for describing the knitted pattern, and at least one knitted pattern in at least one processing stage. In a follow-up processing stage (2, 3) having at least one display device for displaying one symbol display and at least one input device for changing the at least one symbol display, following the start processing stage (1) A design device in which a mark (17) is provided to mark a position where the knitted pattern (10) has been changed.   10. The design apparatus according to claim 9, further comprising state assignment means for assigning one state to the follow-up processing stage (2, 3).   The design device according to claim 8 or 10, characterized in that the state of the follow-up processing stage (2, 3) can be displayed on a display device.   12. The preceding claim 9 to 11, characterized in that only the change of the knitted pattern (10) in the follow-up process stage (2, 3) can be stored and loaded as a process stage. Design equipment.

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