JP2012122182A - Pattern manufacturing by compressed symbol display and simultaneous fabric simulation - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an improved method for designing a textile product to be manufactured by a knitting machine so as to allow further fast input and simultaneous defect watching.SOLUTION: A method of designing a textile product to be manufactured by a knitting machine is provided. In a display device displaying a figure (1) of a pattern of a textile product as a compressed symbol display, the method implements a simulation of a fabric (2) to be made for at least one area of the figure of the pattern in the process of editing the displayed figure of the pattern. The simulation of the fabric and the figure of the pattern are simultaneously displayed in the display device.

Description

  The present invention relates to a method for designing a stitch product to be manufactured on a knitting machine, in which a pattern diagram of a stitch product is displayed on a display device in a compressed symbol display. The invention further relates to a design device for designing a stitch product produced on a knitting machine.

  In order to simulate and display a knitted fabric, it is known to first produce a pattern with a compressed symbol display. In this case, a pattern display that displays each position in the pattern as yarn running, a surface symbol, or a color is interpreted as a symbol display. The compressed symbol representation is then converted into an uncompressed symbol representation in one or more processing steps. Based on these existing data, the knitting simulation is calculated and displayed as a stitch structure display at another work stage that the user must clearly start at another work stage.

  Instead, it is known to create the pattern in a symbol display that is not already compressed, and from this symbol display, a knitting simulation can be calculated and displayed simultaneously. However, the distortion is not calculated at that time, and the distortion of the pattern state defined in advance is taken into consideration at the time of display.

  Furthermore, in a knitted optical device, it is known to create a pattern with a prepared knitting element. However, the distortion is not calculated in the same manner, and only the distortion of the pattern state defined in advance is considered at the time of display.

  Display with a compressed symbol display is the most effective way of creating a pattern. However, the pattern creator can know what action caused the change only after converting the compressed symbol display into the uncompressed symbol display and subsequently performing the knitting simulation.

  Accordingly, an object of the present invention is to develop a design method of a stitch product to be manufactured by a knitting machine so that faster input can be performed and defect monitoring can be performed at the same time.

  This problem is a design method for a stitch product to be manufactured on a knitting machine, in which a pattern diagram of a stitch product is displayed on a display device in a compressed symbol display, and the displayed pattern diagram is edited. At the same time, the knitting simulation of at least one area of the pattern figure is performed and displayed on the display device simultaneously with the pattern figure. Changes in the pattern and therefore the pattern of the pattern can be immediately confirmed in the simulation. Distortion, stitch accumulation, etc. can be simulated. The user has an indication of the actual design pattern. Furthermore, there is an advantage that it is not necessary to start processing or change the view for monitoring the pattern. Input defects from the user can be detected early. The simultaneous display of knitting simulation is ergonomic. This is because, as a whole, the input device, for example, a computer mouse, requires only a small amount of movement for pattern monitoring. Due to the display of the distortion, the optical device of the knitted fabric can already be monitored during the input.

  In order to facilitate the symbol process, the compressed symbol display means, for example, a display of a pattern in which the transfer process and the attached knit are not yet written. The pattern can be caused by a compressed symbol display and can change with changes in the compressed symbol display.

  An existing pattern can be loaded and displayed in a compressed symbol display as a pattern graphic, which can then be changed or edited. Instead, a new pattern can be created and displayed in a compressed symbol display.

  In principle, it is conceivable that all the patterns displayed in the pattern diagram are simulated and displayed as a knitted pattern when the pattern is edited. However, it is particularly advantageous if only a part of the pattern is simulated, in particular the part that has just been changed by being displayed in the compressed symbol display window, and thus only the range relevant for editing. Thereby, the calculation capacity can be saved, and the knitting simulation realized can be displayed more quickly.

  It is particularly advantageous if the stitch distortion is calculated during simulation and displayed on the display device. As a result, an actual display is performed in the knitting simulation.

  Alternatively, the stitch distortion may not be calculated during the knitting simulation, and the simulated stitch in the compressed raster of the first symbol display may be displayed on the display device. Without the indication of distortion, it is easy to find knitting defects that can occur in most cases.

  According to a variation of the method, every time the post-edit knitting simulation of the compressed symbol display is realized, the contour of the mold knitting is formed, and the contour data describing the contour is entered into the compressed symbol display, All data in the compressed symbol display at is erased. Furthermore, the mold knitting is actually displayed near.

  It is also conceivable for the compressed symbol display to be converted into a symbol display that is not compressed and need not be displayed after each action of editing the pattern diagram. For example, the transfer process is not displayed or, as mentioned above, the compressed symbol display clearly does not include each knitting process, for example by using a place holder for a complex structure such as a rope. However, since the uncompressed symbol display includes all the knitting processes, on the premise of this uncompressed symbol display, knitting machine control data is generated to create an accurate knitting simulation or display the knitting simulation display. Can be realized.

  It is advantageous for the user to use all computer-centric parts of the computing system performing the method for knitting simulation so that the user is not disturbed by parallel computations that proceed in the background while drawing and changing the pattern data It is. Thereby, the pattern making process can be accelerated.

  A design device for designing a stitch product manufactured on a knitting machine according to the method according to the invention is also within the scope of the invention, at least one storage device for storing the data necessary for the manufacture of the stitch product, a compressed symbol display. At least one display device for simultaneously displaying at least one pattern in the pattern diagram and a knitting simulation of the pattern, and an input device for editing the displayed pattern diagram.

  Other features and advantages of the present invention will become apparent from the following detailed description of the embodiments, taken in conjunction with the drawings, and the claims, which illustrate details important to the invention. The features shown therein are not necessarily to be construed as a scale, but are shown so that the features according to the invention can be clearly seen. Each of the various features can be implemented singly or in any combination.

  A part of the display device is shown.

  On the display device, in particular on the monitor, FIG. 1 of the handle is shown on the left side in a compressed symbol display. At the same time, the displayed pattern knitting simulation 2 is shown. The knitted fabric simulation 2 is displayed in the form of stitch structure display. The knitting simulation 2 corresponds to only one range of the pattern in FIG. In particular, a range around the mouse pointer 3 is displayed as the knitting simulation 2. In this case, a range around the point where the change has been made, here, the point indicated by the mouse pointer 3 or the marked point 4 can be displayed. This range is fixedly set, can be defined and set by the user, or can be set automatically. In particular, the size of the range should be set automatically or set by the user in relation to what kind of change of the pattern shown in Fig. 1 is made Can do. It is also conceivable to simulate a plurality of different size ranges in the pattern 1 and display the knitted fabric simulations of different ranges on the display device. Based on the display of the knitting simulation 2, it can be seen that a display that is actually very close can be generated. Accordingly, the compressed symbol display can be continuously changed until a desired result is obtained in the knitting simulation 2. In particular, distortions, stitches that are not knitted and stitch accumulation can be checked very quickly and easily so that they can be corrected immediately.

Claims (10)

  A method for designing a stitch product to be manufactured on a knitting machine, wherein a pattern diagram (1) of a stitch product is displayed on a display device in a compressed symbol display, and the displayed pattern diagram is edited Simultaneously, knitting simulation (2) of at least one area of the pattern figure is performed and displayed on the display device simultaneously with the pattern figure.   The method according to claim 1, wherein all the patterns displayed in the pattern diagram are simulated and displayed as a knitting simulation.   Method according to one of the preceding claims, characterized in that the stitch distortion is calculated during simulation and displayed on a display device.   3. The method according to claim 1, wherein the stitch distortion is not calculated during the knitting simulation (2) and the simulated stitch in the raster of the compressed symbol display is displayed on the display device.   Each time the simulation of the compressed symbol display is performed, the contour of the mold knitting is formed, and the contour data describing the contour is entered into the compressed symbol display, and the compressed symbol display outside the contour is displayed. Method according to one of the preceding claims, characterized in that all data is erased.   Method according to one of the preceding claims, characterized in that after each action of editing the pattern diagram, the compressed symbol representation is converted into an uncompressed symbol representation.   7. Method according to claim 6, characterized in that the knitting simulation (2) is calculated and displayed on the basis of a symbol display which is not compressed or a display of knitting simulation is realized.   Method according to one of the claims 1, 3 to 7, characterized in that the knitting simulation (2) is performed and displayed only for the range of the pattern figure related to editing.   Method according to one of the preceding claims, characterized in that for the knitting simulation (2) all computer central parts of the computing system in which the method is executed are used.   A design device for designing a stitch product to be produced on a knitting machine according to one of the preceding claims, wherein at least one storage device for storing data necessary for the production of the stitch product, in a compressed symbol display A design apparatus, comprising: at least one display device that simultaneously displays at least one pattern in a pattern diagram and a pattern knitting simulation; and an input device that edits the displayed pattern diagram.

Images