KR101226621B1 - Hole darning sewing machine - Google Patents

Abstract

By changing only a part of the shape pattern data, all data items of the shape pattern data can be changed, thereby reducing the burden on the operator.

Shape data storage means 32 for storing a plurality of buttonhole shape pattern data, shape pattern setting means B1 to B8 for setting a desired buttonhole shape pattern, and buttonholes corresponding to the buttonhole shape pattern A buttonhole sewing machine (1) for forming buttonhole stitching stitches based on the shape of a stitching pattern data, the sewing region setting means (B15) for setting a sewing area for forming buttonhole stitching stitches, and buttonhole stitching pattern data To form the buttonhole needle stitches on the basis of the shape data correction means 30 for correcting by expanding or contracting according to the set sewing area and the buttonhole shape shape data corrected by the shape data correction means 30. The control means 30 was provided.

Description

Buttonhole sewing machine {HOLE DARNING SEWING MACHINE}

1 is a perspective view of a buttonhole sewing machine.

2 is a perspective view of a buttonhole sewing machine.

Figure 3 is a block diagram showing the structure of a buttonhole sewing machine.

4 is a display example of a buttonhole shape pattern setting screen.

5 is a display example of an initial data screen.

6 is a display example of a presser division selection screen.

7 is a diagram illustrating a correspondence relationship between presser division, amplitude, and stitch length.

8 is a display example of a cloth pressing part display screen.

Fig. 9 is a diagram showing the ratio of the amplitude or the sewing length in the length of each part of buttonhole needle stitches.

10 is a display example of a correction data display screen.

11 is a display example of a size input screen.

12 is a display example of a correction data display screen.

13 is a display example of a cloth cutting setting screen.

14 is a display example of a correction data display screen.

It is a figure which shows the ratio with respect to the amplitude or stitch length in the length of each part of buttonhole needle stitches.

16 shows an example of displaying a size input screen.

17 is a display example of a correction data display screen.

18 is a sewing data table.

19 is a cloth cutting length data table.

20 is a scalpel width data table.

Fig. 21 is a table of qualifier width data.

Explanation of symbols on the main parts of the drawings

1: buttonhole sewing machine

20: operation panel (shape pattern setting means, presser size setting means, sewing area setting means, cloth cutting length setting means, scalpel size setting means)

30 control part (shape data correction means, control means)

32: memory (shape data storage means, size data storage means)

B1: Square setting button (shape pattern setting means)

B2: Round setting button (shape pattern setting means)

B3: Radiation square setting button (shape pattern setting means)

B4: Radial setting button (shape pattern setting means)

B5: Radiation straight latch type setting button (shape pattern setting means)

B6: Radial tapered latching setting button (shape pattern setting means)

B7: Keyhole square setting button (shape pattern setting means)

B8: Keyhole radial setting button (shape pattern setting means)

B11, B12, B13, B14: Division button (presser size setting means)

B15: Division button (sewing area setting means)

B17: Size input button (cloth cutting length setting means, scalpel size setting means)

The present invention relates to a buttonhole sewing machine which forms a buttonhole for a sewing material and at the same time forms a buttonhole needle stitch around it.

A buttonhole sewing machine is known which selects from a plurality of buttonhole-shaped patterns to form buttonholes and buttonhole needle stitches by electrical control (see Patent Document 1, for example).

The buttonhole needle stitch is composed of a parallel portion formed on the left and right sides of the buttonhole, a first latching portion formed on the upper portion of the buttonhole, and a second latching portion formed on the lower portion of the buttonhole. In addition, various shapes, such as a square shape, a radial shape, and a half moon shape, exist, for example as a latching shape of a 1st latching part and a 2nd latching part, The combination of these latching shapes is a shape pattern of a buttonhole needle stitch. It is stored in a memory or the like. Then, buttonhole needle stitches are formed based on the shape pattern selected by the operator through the operation panel.

By the way, in the buttonhole sewing machine, the standard pattern data registered as a service pattern at the time of shipment and the standard data for each shape registered at the time of creating a new shape pattern are stored. These shape pattern data are small in size so that an error in which the size does not occur with respect to the size of a component such as a presser or a cloth cutting blade attached to a buttonhole sewing machine in a standard shipping state does not occur.

[Patent Document 1] Japanese Patent Laid-Open No. 2001-162070

By the way, when the formation of a large buttonhole needle stitch is desired, shape pattern data such as the width of the subtractive width and the length of the latching need to be changed in order to balance the buttonhole stitching with the change of the length of cloth cutting.

However, in recent years, as the shape pattern of the sewing button stitch stitches that can be sewn increases, the shape pattern data has been segmented and more data items have to be set. Changes to data items resulted in a reduction in work efficiency.

Accordingly, an object of the present invention is to solve the above problems, and when changing the shape pattern data, it is possible to change all data items of the shape pattern data only by changing a part of the shape pattern data. It is to provide a buttonhole sewing machine that can reduce the burden of.

In order to solve the above problems, the invention described in claim 1 is stored in shape data storage means (memory 32) and a plurality of shape data storage means (memory 32) for storing a plurality of buttonhole shape pattern data. Shape pattern setting means (shape pattern setting buttons B1 to B8) for setting a desired buttonhole shape pattern from the button hole shape pattern based on the buttonhole shape pattern data, and the shape pattern setting means (shape pattern setting). A buttonhole sewing machine (1) for forming buttonhole stitching stitches based on buttonhole stitching pattern data corresponding to the buttonhole stitching pattern set by buttons B1 to B8), which forms buttonhole stitching stitches. A sewing area setting means (separation button B15) for setting the sewing area on the display surface, and a buttonhole-shaped pattern stored in the shape data storage means (memory 32). Buttonhole shape patterns corrected by shape data correction means (control unit 30) and the shape data correction means (control unit 30) for correcting data by expanding or contracting the data according to the sewing area set on the display surface. And control means (control section 30) for forming buttonhole needle stitches based on the data.

According to the invention as set forth in claim 1, the shape pattern setting means sets a desired buttonhole shape pattern from the buttonhole shape pattern based on the buttonhole shape pattern data stored in the shape data storage means, and sets the sewing area. By setting the sewing area for forming buttonhole needle stitches by the means, the shape data correction means enlarges or reduces the buttonhole shape pattern data stored in the shape data storage means according to the sewing area set by the sewing area setting means. Correct it by Then, the control means forms the buttonhole needle stitches based on the buttonhole shape pattern data corrected by the shape data correction means.

As a result, the operator can correct up to the detailed data items of the buttonhole shape pattern data suitable for the sewing area only by setting the sewing area forming the buttonhole needle stitches, and thus corrects the buttonhole shape pattern data. At this time, it is possible to correct all data items of the buttonhole shape pattern data only by correcting a part of the buttonhole shape pattern data, thereby reducing the burden on the operator.

The invention according to claim 2 is a shape data storage means (memory 32) for storing a plurality of buttonhole shape pattern data and a buttonhole shape pattern data stored in the shape data storage means (memory 32). Shape pattern setting means (shape pattern setting buttons B1 to B8) for setting a desired buttonhole shape pattern from the buttonhole shape shape pattern based on the above, and the shape pattern setting means (shape pattern setting buttons B1 to B8). A buttonhole sewing machine (1) for forming buttonhole needle stitches on the basis of buttonhole shape pattern data corresponding to the buttonhole shape pattern set by a), comprising: a plurality of presses for pressing the fabric at the time of forming the buttonhole needle stitches Size data storage means (memory 32) for storing the size data of the book (cloth pressing section 7) and size data stored in the size data storage means (memory 32). Presser size setting means (separation buttons B11 to B14) for setting the size of the desired presser (cloth presser 7) from the size of the presser (cloth presser 7) based on The buttonhole shape pattern data stored in the data storage means (memory 32) of the presser (cloth pressing portion 7) set by the presser size setting means (separation buttons B11 to B14). The buttonhole stitching stitches are made based on the shape data correction means (control unit 30) corrected by enlargement or reduction according to the size and the buttonhole shape shape data corrected by the shape data correction means (control unit 30). It is characterized by including the control means (control unit 30) to be formed.

According to the invention as set forth in claim 2, a desired buttonhole shape pattern is set by the shape pattern setting means from the buttonhole shape pattern based on the buttonhole shape pattern data stored in the shape data storage means. If the setting means sets the size of the presser used for the formation of buttonhole needle stitches, the shape data correction means sets the buttonhole shape pattern data stored in the shape data storage means by the presser size setting means. Correction is made by enlarging or reducing according to the size of. Then, the control means forms the buttonhole needle stitches based on the buttonhole shape pattern data corrected by the shape data correction means.

This allows the operator to set the size of the presser used for the formation of buttonhole needle stitches, and to correct up to the detailed data item of the buttonhole shape pattern data suitable for the size of the presser. In correcting the shape pattern data, it is possible to correct all data items of the buttonhole shape pattern data only by correcting a part of the buttonhole shape pattern data, thereby reducing the burden on the operator.

In the invention according to claim 3, the buttonhole shape pattern data stored in the shape data storage means (memory 32) for storing a plurality of buttonhole shape pattern data and the shape data storage means (memory 32). Shape pattern setting means (shape pattern setting buttons B1 to B8) for setting a desired buttonhole shape pattern from the buttonhole puncture shape pattern based on the above and the shape pattern setting means (shape pattern setting buttons B1 to B8). A buttonhole sewing machine (1) for forming buttonhole needle stitches based on buttonhole shape pattern data corresponding to a buttonhole shape pattern set by a), and is cut by a cloth cutting blade (11). Cut length setting means (size input button B20) for setting the cut length of the cloth on which the cloth is formed, and buttonhole shape data stored in the shape data storage means (memory 32); Shape data correction means (control unit 30) for correcting by expanding or contracting according to the cloth cutting length set by the cloth cutting length setting means (size input button B20), and the shape data correction means (control unit 30). And control means (control unit 30) for forming buttonhole needle stitches based on the buttonhole shape pattern data corrected by "

According to the invention as set forth in claim 3, by means of the shape pattern setting means, a desired buttonhole shape pattern is set from the buttonhole shape pattern based on the buttonhole shape pattern data stored in the shape data storage means, and the cloth cutting blade When the cloth cutting length of the fabric on which the cutting portion is formed is set by the cloth cutting length setting means, the shape data correction means sets the buttonhole shape pattern data stored in the shape data storage means by the cloth cutting length setting means. Correction is made by enlarging or reducing the fabric according to the cutting length. Then, the control means forms the buttonhole needle stitches based on the buttonhole shape pattern data corrected by the shape data correction means.

As a result, the operator can only correct the detailed data item of the buttonhole shape pattern data suitable for the fabric cutting length by setting the fabric cutting length of the fabric on which the cutting portion is formed by the fabric cutting blade. At the time of correcting the pinch-shaped pattern data, only a part of the buttonhole-patterned pattern data can be corrected for all data items of the buttonhole-patterned pattern data, thereby reducing the burden on the operator.

The invention according to claim 4, in the buttonhole sewing machine 1 according to claim 3, comprises a scalpel size setting means (size input button B20) for setting the size of the cloth cutting scalpel 11; The control means (control unit 30) cuts the fabric set by the buttonhole shape pattern data corrected by the shape data correction means (control unit 30) and the mass size setting means (size input button B20). It is characterized by forming buttonhole needle stitches based on the size of the scalpel 11.

According to the invention as set forth in claim 4, the control means forms the buttonhole needle stitches based on the buttonhole shape pattern data corrected by the shape data correction means and the size of the cloth cutting blade set by the blade size setting means.

Thereby, even when the cloth cutting length of the buttonhole shape pattern data is longer than the cloth cutting blade, the control means can form buttonhole needle stitches based on both data. Accordingly, the range in which the buttonhole needle stitches can be formed can be enlarged regardless of the size of the cloth cutting blade.

Invention of Claim 5 thru | or 7 is an input correction means which correct | amends the said buttonhole shape pattern data by expanding or contracting based on the input from the outside, the said shape data correction means (control part 30), and the said input. And selection means for selecting which of the correction means is to be corrected by enlarging or reducing the buttonhole shape pattern data.

According to the invention of Claims 5 to 7, the selection means selects which of the shape data correction means and the input correction means correct the buttonhole shape pattern data. If the correction of the buttonhole shape pattern data is selected by the input correction means, the buttonhole shape pattern data can be corrected by enlarging or reducing the buttonhole shape pattern data based on an input from the outside. On the other hand, if the correction of the buttonhole shape pattern data is selected by the shape data correcting means, it is possible to correct all data items of the buttonhole shape pattern data only by correcting a part of the buttonhole shape pattern data. Thus, the burden on the worker can be reduced.

Thereby, the buttonhole sewing machine with high versatility can be made to meet the needs of the operator.

EMBODIMENT OF THE INVENTION Hereinafter, with reference to drawings, embodiment of the buttonhole sewing machine which concerns on this invention is described in detail.

[Embodiment 1]

<Configuration of buttonhole sewing machine>

As shown in Figs. 1 and 2, the buttonhole sewing machine 1 lifts the needle to the bed part 2, the vertical body part 3, the arm part 4, and the sewing needle 5, and to the left and right. Needle transfer mechanism 6 which executes the shaking motion, the cloth pressing portion 7 as a presser for pressing the cloth, and the cloth transfer plate moving in the cloth feeding direction (rear direction) while the cloth is held under the cloth pressing portion 7. (8), the upper thread cutting device (9) for cutting the upper thread from the upper side of the cloth pressing portion (7), the lower thread cutting device (not shown) for cutting the lower thread under the needle plate (10), and cut the cloth An operation panel 20 (not shown) for setting various sewing parameters such as cloth cutting scalpels 11 to be formed, shape pattern data relating to buttonhole needle stitches, and a control unit 30 as control means for controlling driving of these various devices; Illustration) and the like.

Since the operation of the buttonhole sewing machine 1 is well known, a detailed description thereof will be omitted, but the cloth transfer plate 8 is held in a state where the cloth is held from the top and bottom by the cloth pressing portion 7 and the cloth transfer plate 8. And the needle bar drive mechanism 6 to move the sewing needle 5 up and down while shaking the left and right by the needle bar drive mechanism 6 to form buttonhole needle stitches around the buttonholes formed in the cloth. .

<Control system of buttonhole sewing machine>

As shown in FIG. 3, the control part 30 includes the processing part 31 which performs various processes at the time of formation of buttonhole needle stitches, the shape data storage means which stores a plurality of buttonhole shape pattern data, and a buttonhole buttonhole. A memory 32 is provided which constitutes size data storage means for storing size data of a plurality of cloth pressing portions 7 which press the fabric at the time of needle stitch formation.

In addition, the control unit 30 includes various devices (needle drive mechanism 6, cloth pressing portion 7, cloth transfer plate 8, lower thread cutting device, fabric cutting scalpel 11 constituting the buttonhole sewing machine 1). The operation panel 20 is connected via an actuator 40 (stepping motor, solenoid valve, solenoid, sensor, etc.) serving as a driving source of the control panel) or the display control circuit 20a.

The processing part 31 reads the program stored in the memory 32, calculates a needle dropping position, etc. in accordance with the set values of various sewing parameters, and controls the operation of the actuator 40.

The memory 32 has a work area 32a for temporarily storing the setting values of sewing parameters set / changed through the operation panel 20 and temporarily storing data during various processing operations by the processing unit 31; A program area 32b for storing a program for calculating a needle drop position or the like based on a set value of each sewing parameter and a set value of buttonhole shape pattern data (sewing parameter) set / changed through the operation panel 20 And a data area 32c for storing a plurality of buttonhole shape pattern data and size data of a plurality of fabric presses 7 which presses the fabric when the buttonhole needle stitches are formed.

The operation panel 20 is provided with a liquid crystal display screen (display surface) having a function as a touch panel. Then, various setting buttons described later are displayed on the liquid crystal display screen.

That is, the operation panel 20 functions as a shape pattern setting means for setting a desired buttonhole shape pattern from the buttonhole shape pattern based on the buttonhole shape pattern data stored in the memory 32.

The operation panel 20 functions as sewing area setting means for setting the sewing area for forming buttonhole needle stitches.

The operation panel 20 functions as a presser size setting means for setting the size of the cloth pressing portion 7 used for the formation of buttonhole needle stitches.

The operation panel 20 functions as cloth cutting length setting means for setting the cloth cutting length of the cloth on which the cutting portion is formed by the cloth cutting blade 11.

The operation panel 20 functions as a scalpel size setting means for setting the size of the cloth cutting scalpel 11.

The control unit 30 functions as shape data correction means for correcting the buttonhole shape pattern data stored in the memory 32 by expanding or reducing the buttonhole shape pattern data in accordance with the sewing area set by the operation panel 20.

The control part 30 functions as shape data correction means which correct | amends the buttonhole shape pattern data memorize | stored in the memory 32 by expanding or reducing according to the presser size set by the operation panel 20. FIG.

The control unit 30 functions as shape data correction means for correcting by expanding or reducing the buttonhole shape pattern data stored in the memory 32 in accordance with the cloth cutting length set by the operation panel 20.

The controller 30 also has a function of forming buttonhole needle stitches based on the corrected buttonhole shape pattern data and the size of the cloth cutting scalpel 11 set by the operation panel 20.

The control unit 30 is adapted to form buttonhole needle stitches based on the buttonhole shape pattern data corrected by the method described above (needle drive mechanism 6, fabric presser 7, and transfer plate 8). ), The lower thread cutting device, the cloth cutting blade 11, and the like, as a control means for controlling the driving of the actuator 40 (stepping motor, solenoid valve, solenoid, sensor, etc.).

<Method of Correcting Buttonhole Shape Pattern Data>

As shown in FIG. 4, the control part 30 displays the shape pattern setting screen D1 on the operation panel 20 by an operator's operation. On the shape pattern setting screen D1, a plurality of shape pattern setting buttons B1 to B8 of buttonhole needle stitches are displayed. Specifically, the square setting button (B1), the circular setting button (B2), the radial setting button (B3), the radial setting button (B4), the radial straight button type setting button (B5), the radial tapered type sewing button setting button (B6), keyhole square setting button B7, keyhole radial setting button B8, and the like. The operator selects the desired buttonhole shape pattern while looking at the shape pattern setting screen D1. At the time of selection, the operator 30 makes contact with any of the shape pattern setting buttons B1 to B8 displayed on the shape pattern setting screen D1 so that the controller 30 recognizes the selected buttonhole shape pattern.

When the operator presses the square setting button B1, the controller 30 displays the initial data screen D2 on the operation panel 20 as shown in FIG. In the initial data screen D2, a rectangular buttonhole shape pattern is displayed, and initial data of the shape pattern is displayed. In the initial data screen D2, a sewing size setting button B10 for setting a sewing size for forming buttonhole stitches and a cutting portion are formed on the lower side of the displayed initial data. The cloth cutting length setting button B30 for setting the cloth cutting length of the cloth is displayed. The operator selects the method used for changing the size of the desired buttonhole needle stitches while viewing the initial data screen D2. At the time of selection, the operator makes contact with either of the sewing size setting button B10 and the cloth cutting length setting button B30 displayed on the initial data screen D2, so that the controller 30 changes the size of the selected buttonhole stitching stitches. Can be recognized.

Here, when the operator changes the size of the buttonhole stitching stitch, press the sewing size setting button (B10) to change the size from the sewing size, and press the cloth cutting length setting button (B30) to change the size from the cloth cutting length. The description will be divided into the following cases.

(1) When we change size of buttonhole needle stitch from sewing size

When the sewing size setting button B10 is pressed by the operator, the control unit 30 displays a presser division selection screen D3 for selecting a presser division on the operation panel 20 as shown in FIG. 6. . On the presser division selection screen D3, five division buttons B11, B12, B13, B14, and B15, which are numbered from 1 to 5, are displayed.

Here, the presser division will be described. When the presser division &quot; 1 &quot; is selected as shown in Fig. 7, the size of the initial data of the buttonhole needle stitches is changed in accordance with the size of 4 mm in amplitude and 25 mm in stitch length. This is done. Similarly, when the presser division "2" is selected, the size of the initial data of the buttonhole needle stitches is changed in accordance with the size of 5 mm in amplitude and 35 mm in stitch length. When the presser division "3" is selected, the size of the initial data of the buttonhole needle stitches is changed to the size having an amplitude of 5 mm and the sewing length of 41 mm, and when the presser division "4" is selected, The initial data size of the buttonhole needle stitches is changed to a size of 6 mm in amplitude and 70 mm in stitch length. In addition, when the presser division "5" is selected, both the amplitude and the stitch length can be arbitrarily set, and the size of the initial data of the buttonhole needle stitches is changed in accordance with the amplitude and the stitch length set by the operator. The database shown in FIG. 7 is stored in advance in the memory 32.

That is, when any of the division buttons B11 to B14 is pressed, the size of the initial data is changed in accordance with the size of the cloth pressing portion 7 corresponding to the presser division, and the division button B15 is pressed. In this case, the operator can arbitrarily set the sewing area for buttonhole stitching. Therefore, the division buttons B11 to B14 function as cloth pressing portion size setting means for setting the size of the cloth pressing portion 7 used for the formation of the buttonhole needle stitches, and the division button B15 forms the buttonhole needle stitches. It functions as sewing area setting means for setting a sewing area to be made.

Here, when changing the size of the buttonhole needle stitches, the description will be divided into the case of changing from the cloth pressing portion 7 and the case where the operator arbitrarily sets and changes the sewing area.

경우) When changing the size by selecting the cloth press

When the division button B12 is pressed by the operator, the control unit 30 shows the size of the cloth pressing unit 7 based on the presser division selected on the operation panel 20 as shown in FIG. 8. The cloth pressing part display screen D4 is displayed. The amplitude W and the sewing length L are indicated in the size of the cloth pressing portion 7. Here, the operator can determine whether the selected presser division is correct, and if it is correct, press the decision button B16 displayed on the cloth pressing part display screen D4. When the decision button B16 is pressed, the controller 30 executes a correction program for buttonhole shape pattern data stored in the program area 32b of the memory 32, thereby selecting initial data of buttonhole needle stitches. Correction is made by expanding or contracting according to the size of the cloth pressing portion 7.

In the correction of the initial data of the buttonhole needle stitches, as shown in Fig. 9, since the dimensions of each part in the buttonhole stitches are set in advance as a ratio with respect to the amplitude W or the sewing length L, the selected cloth is selected. The dimension of each part can be calculated from the amplitude W or the sewing length L of the press part 7.

By this method, when the initial data of the buttonhole needle stitches is corrected, as shown in Fig. 10, the correction data display screen D5 displaying the correction data is displayed on the operation panel 20.

Specifically, as shown in FIG. 9, the relationship between the sewing length L and the cloth cutting length S02 is sewn in FIG. 8 because the cloth cutting length S02 is 6/10 of the sewing length L. FIG. When the length L is 35.00 mm, the cloth cutting length S02 after initial data correction is 35.00 x 6/10 = 21.00 mm, and this value is displayed as correction data as shown in FIG. It is displayed on the screen D5.

Ii) When the operator changes the size by setting the sewing area

When the separator button B15 is pressed by the operator, the control unit 30 causes the operation panel 20 to input the amplitude W of the buttonhole needle stitches and the sewing length L as shown in FIG. 11. The size input screen D6 is displayed. Here, the operator inputs the desired size by pressing the size input button B17, and the sewing area of the buttonhole needle stitch is determined by pressing the decision button B18. When the decision button B16 is pressed, the control section 30 executes a correction program for buttonhole shape pattern data stored in the program area 32b of the memory 32, thereby resizing the initial data of buttonhole needle stitches. Correction is made by enlarging or reducing in accordance with the sewing area input by the input button B17.

By this method, when the initial data of buttonhole needle stitches is corrected, a correction data display screen D7 displaying correction data is displayed on the operation panel 20 as shown in FIG.

Specifically, as shown in FIG. 9, the relationship between the sewing length L and the cloth cutting length S02 is sewn in FIG. 11 because the cloth cutting length S02 is 6/10 of the sewing length L. FIG. When 50.00 mm is input for the length L, the cloth cutting length S02 after initial data correction is 50.00 x 6/10 = 30.00 mm, and this value is corrected as correction data as shown in FIG. It is displayed on the data display screen D7.

(2) When we change size of buttonhole needle stitch from cloth cutting length

In FIG. 5, when the cloth cutting setting button B30 is pressed by the operator, the control unit 30 inputs the size and the cloth cutting length of the cloth cutting blade 11 to the operation panel 20, as shown in FIG. 13. The cloth cutting setting screen D8 is displayed. Here, the operator inputs the size and the cloth cutting length of the desired cloth cutting blade 11 by pressing the size input button B20, and the conditions related to the cloth cutting are determined by pressing the decision button B21. When the decision button B21 is pressed, the controller 30 executes a correction program of buttonhole shape pattern data stored in the program area 32b of the memory 32, thereby resizing the initial data of buttonhole needle stitches. Correction is made by enlarging or reducing according to the size of the cloth cutting blade 11 and the cloth cutting length inputted by the input button B20.

By this method, the initial data of the buttonhole needle stitches is corrected, and as shown in Fig. 14, the correction data display screen D9 displaying the correction data is displayed on the operation panel 20.

Specifically, as shown in Fig. 9, the relationship between the sewing length L and the cloth cutting length S02 is that since the cloth cutting length is 6/10 of the sewing length L, the cloth cutting length is shown in Fig. 13. In the case of 30.00 mm, since S02 in FIG. 9 is 30.00 mm, the sewing length L after the initial data correction is 30.00 x 10/6 = 50.00 mm, and the angle is based on the calculated sewing length L. Negative dimensions are calculated. For example, the first sticking length S09 after initial data correction is 50.00 x 1/10 = 5.00 mm, and this value is displayed on the correction data display screen D9 as correction data as shown in FIG.

<Method of Correcting in Different Buttonhole Shape Pattern Data>

Next, an example in the case where the keyhole square is selected by the keyhole square setting button B7 as the buttonhole-like pattern in FIG. 4 will be described. In addition, since the setting operation of the correction method on the way is the same as when the said square setting button B1 is pressed, the description is abbreviate | omitted. In addition, even in the buttonhole needle stitches of the keyhole square, as shown in FIG. 15, in the correction of the initial data, the dimensions of each part in the buttonhole stitches were previously set as a ratio with respect to the amplitude (W) or the sewing length (L). Therefore, the dimension of each part can be calculated from the amplitude W or the sewing length L of the set sewing area.

The operator presses the keyhole square setting button B7 displayed on the operation panel 20, presses the sewing size setting button B10, selects the size change from the sewing size, and the division button B15 is pressed to press the presser. When the division "5" is selected, the control unit 30 has a size input screen D11 for inputting the amplitude W of the buttonhole needle stitches and the sewing length L on the operation panel 20 as shown in FIG. Is displayed. Here, the operator inputs the desired size by pressing the size input button B31, and by pressing the decision button B32, the sewing area for buttonhole needle stitches is determined. When the decision button B32 is pressed, the control section 30 executes a correction program for buttonhole shape pattern data stored in the program area 32b of the memory 32, thereby resizing the initial data of buttonhole needle stitches. Correction is made by enlarging or reducing in accordance with the sewing area input by the input button B31.

By this method, the initial data of the buttonhole needle stitches is corrected, and as shown in Fig. 17, the correction data display screen D12 displaying the correction data is displayed on the operation panel 20.

Specifically, as shown in FIG. 17, the relationship between the sewing length L and the cloth cutting length S02 is sewn in FIG. 16 because the cloth cutting length S02 is 1/2 of the sewing length L. FIG. When 10.00 mm is input for the length L, the cloth cutting length S02 after initial data correction is 10.00 x 1/2 = 5.00 mm, and this value is corrected data as correction data as shown in FIG. It is displayed on the display screen D12.

<Effects of Embodiment 1>

According to the buttonhole sewing machine 1 according to the first embodiment, the buttonhole shape pattern data stored in the memory 32 by the buttonhole shape pattern setting buttons B1 to B8 displayed on the operation panel 20. When the desired buttonhole shape pattern is set from the buttonhole shape pattern based on and the sewing area for forming buttonhole needle stitches is set by the division button B15, the control unit 30 stores the memory 32 in the memory 32. By executing the correction program of the buttonhole shape pattern data, the initial data of the buttonhole shape pattern data stored in advance in the memory 32 is corrected by enlarging or reducing according to the sewing area set by the division button B15. And the control part 30 controls the operation | movement of each part of the buttonhole sewing machine 1, and forms buttonhole needle stitches based on the corrected buttonhole shape pattern data.

As a result, the operator can only correct the detail data item of the buttonhole shape pattern data suitable for the sewing area by setting the sewing area forming the buttonhole needle stitches. Only by correcting a part of the buttonhole shape pattern data, all data items of the shape pattern data can be corrected, and the burden on the operator can be reduced.

In addition, by using the buttonhole shape pattern setting buttons B1 to B8 displayed on the operation panel 20, the desired buttonhole shape is pushed from the buttonhole shape pattern based on the buttonhole shape pattern data stored in the memory 32. When the shape pattern is set and the size of the cloth pressing portion 7 used for the formation of buttonhole needle stitches is set by the division buttons B11 to B14, the control unit 30 stores the buttonhole shape stored in the memory 32. By executing the pattern data correction program, the initial data of the buttonhole shape pattern data stored in advance in the memory 32 is enlarged or reduced in accordance with the size of the fabric pressing portion 7 set by the division buttons B11 to B14. Correct it by And the control part 30 controls the operation | movement of each part of the buttonhole sewing machine 1, and forms buttonhole needle stitches based on the corrected buttonhole shape pattern data.

Thus, the operator merely sets the size of the fabric pressing portion 7 used for the formation of the buttonhole needle stitches, and corrects up to the detailed data item of the buttonhole shape pattern data suitable for the size of the fabric pressing portion 7. Therefore, at the time of correcting the buttonhole shape pattern data, only a part of the buttonhole shape pattern data can be corrected, so that all data items of the buttonhole shape pattern data can be corrected. Can alleviate

In addition, by using the buttonhole shape pattern setting buttons B1 to B8 displayed on the operation panel 20, the desired buttonhole shape is pushed from the buttonhole shape pattern based on the buttonhole shape pattern data stored in the memory 32. When the shape pattern is set and the size of the cloth cutting blade 11 is set by the size input button B20 and the cloth cutting length of the cloth on which the cutting portion is formed by the cloth cutting blade 11, the controller 30 controls the memory. By executing the correction program of the buttonhole shape pattern data stored in (32), the initial cutting data of the buttonhole shape pattern data stored in advance in the memory 32 is set by the size input button B20. Correction is made by enlarging or contracting according to the size and the cutting length of the fabric. And the control part 30 controls the operation | movement of each part of the buttonhole sewing machine 1, and forms buttonhole needle stitches based on the corrected buttonhole shape pattern data.

Thus, the operator merely sets the size of the cloth cutting blade 11 and the cloth cutting length of the cloth on which the cutting portion is formed by the cloth cutting blade 11, so that the buttonhole shape pattern data suitable for the cloth cutting length can be set. Since detailed data items can be corrected, at the time of correcting the buttonhole shape pattern data, only a part of the buttonhole shape pattern data can be corrected so that all data items of the buttonhole shape pattern data can be corrected. Thus, the burden on the worker can be reduced.

Further, even when the cloth cutting length of the buttonhole-shaped pattern data is longer than the size of the cloth cutting blade 11, the controller 30 can form buttonhole needle stitches based on both data. Thereby, the range which can form a buttonhole needle stitch can be enlarged, regardless of the size of the cloth cutting blade 11.

[Embodiment 2]

Next, Embodiment 2 in the buttonhole sewing machine of the present invention will be described. The buttonhole sewing machine of Embodiment 2 differs from the buttonhole sewing machine of Embodiment 1 based on the sewing data table 320 stored in the data area 32c of the memory 32. Since the size is corrected, the sewing data table 320 and its correction method will be described, and the same reference numerals will be given to the same components, and description thereof will be omitted.

As shown in FIG. 18, the sewing data table 320 stored in the data area 32c has a combination of the five types of presser divisions described above and the eight types of buttonhole shape patterns (40 types in total), respectively. The size of each part of the buttonhole needle stitch is set.

<How to calibrate initial data>

When the operator sets the shape pattern of the buttonhole stitching stitch on the shape pattern setting screen D1 shown in FIG. 4, and then sets the presser classification on the presser division selection screen D3 shown in FIG. 6, the control unit ( 30 reads the sewing data table 320 stored in the data area 32c, and corrects the initial data of the buttonhole shape pattern data so as to have a size corresponding to the set pattern of buttonhole needle stitches and the presser division. do.

Specifically, when the presser division is set to "1" and the buttonhole shape pattern is set to "square", as shown in FIG. 18, as for the control part 30, cloth cutting length S02 is 12.7 mm and a scalpel right side The width S03 is 0.1mm, the meshom left width S04 is 0.1mm, the subtraction width S05 is 1.7mm, the second length of the sling S08 is 1mm, the length of the first sling S09 is 1mm, Initial data of the buttonhole-shaped pattern data is corrected such that the first gap S22 is 1.3 mm and the second gap S23 is 1.5 mm.

<Effects of Embodiment 2>

According to the buttonhole sewing machine of the second embodiment, not only the effect of the first embodiment can be obtained, but also the control unit 30 only reads the sewing data table 320 stored in the data area 32c. It is not necessary to prepare a program for correcting initial data as in the first embodiment. In addition, since it is not necessary to calculate by a program, the burden on the control part 30 can be reduced.

[Embodiment 3]

Next, Embodiment 3 in the buttonhole sewing machine of the present invention will be described. The buttonhole sewing machine of the third embodiment is different from the buttonhole sewing machine of the first embodiment based on the cloth cutting length data table 321 stored in the data area 32c of the memory 32. Corrects the cutting length of the cloth, corrects the left and right scissor widths of the buttonhole stitching stitches based on the scalpel width data table 322, and corrects the width of the stitching width of the buttonhole stitching stitches based on the stitching width data table 323 In this regard, the cloth cutting length data table 321, the scissor width data table 322, the immersion width data table 323, and a correction method thereof will be described. Omit.

As shown in Fig. 19, the cloth cutting length data table 321 stored in the data area 32c is used for the buttonhole stitching stitches for the combination of the amplitude W and the sewing length L input by the operator, respectively. The cloth cutting length is set.

As shown in Fig. 20, the scalpel width data table 322 stored in the data area 32c has left and right sides of the buttonhole stitching stitches for the combination of the amplitude W and the sewing length L input by the operator, respectively. The blade groove width is set.

As shown in Fig. 21, the immersion width data table 323 stored in the data area 32c shows the subtraction of buttonhole needle stitches for each combination of the amplitude W and the sewing length L input by the operator. The width is set.

<How to calibrate initial data>

When the operator inputs the amplitude W of the buttonhole needle stitches and the stitch length L on the size input screen D6 shown in FIG. 11, the controller 30 controls the cloth cutting length stored in the data area 32c. The data table 321 is read, and the cloth cutting length of the initial data of the buttonhole shape pattern data is corrected so as to have a size corresponding to the set amplitude of the buttonhole needle stitches (W) and the sewing length (L).

In addition, in parallel with the correction of the cloth cutting length, the control unit 30 reads the scalpel width data table 322 stored in the data area 32c, and sets the amplitude W of the buttonhole needle stitches and the sewing length L. ), The left and right scalpel widths of the initial data of the buttonhole-shaped pattern data are corrected to a size corresponding to

In addition, in parallel with the correction of the cloth cutting length and the scalpel width, the control unit 30 reads the subtractive width data table 323 stored in the data area 32c, and sets the amplitude W of the stitching of the buttonhole stitching and the stitching. The subtraction quality width of the initial data of the buttonhole-shaped pattern data is corrected to have a size corresponding to the length L. FIG.

Specifically, when the amplitude W is 3.5 mm and the sewing length L is input at 30 mm, the control unit 30 has a cloth cutting length S02 of 12.7 mm and a left and right mesgromm width S03 and S04 of 0.1. The initial data of the buttonhole shape pattern data is corrected so that mm and the subtracted width S05 are 1.4 mm.

<Effects of Embodiment 3>

According to the buttonhole sewing machine of the third embodiment, not only the effect of the first embodiment can be obtained, but also the controller 30 controls the respective data tables 321, 322, and 323 stored in the data area 32c. It is only necessary to read, and it is not necessary to prepare a program for correcting initial data as in the first embodiment. In addition, since it is not necessary to calculate by a program, the burden on the control part 30 can be reduced. In addition, since it is easier to subdivide the data table compared with the second embodiment, various buttonhole stitching stitches can be formed.

In addition, this invention is not limited to the said embodiment. For example, the size of the cloth pressing portion 7 and the cloth cutting blade 11 may be directly input the value thereof, or may be configured to input a preset symbol or the like. Further, the buttonhole sewing machine 1 may have a function of automatically determining the size of the cloth pressing portion 7 and the size of the cloth cutting blade 11.

In addition, a simple correction mode is provided in which an input correction mode as an input correction means for correcting by sequentially inputting buttonhole shape pattern data from the outside and correcting initial data by a correction program for buttonhole shape pattern data as described above. And a selection button (not shown) may be displayed so that the input correction mode can be selected on the operation panel 20. Accordingly, on the operation panel 20, the selection button selects which of the simple button and input correction modes to correct the buttonhole shape pattern data. When the buttonhole shape pattern data is selected to be corrected in the input correction mode, the buttonhole shape pattern data can be corrected by sequentially inputting the buttonhole shape pattern data from the outside. On the other hand, if the buttonhole shape pattern data is selected to be corrected by the simple correction mode, all other buttonhole shape pattern data can be corrected only by correcting a part of the buttonhole shape pattern data. Thereby, the buttonhole sewing machine with high versatility can be made to meet the needs of the operator.

According to the invention as set forth in claim 1, the operator can only correct the detailed data item of the buttonhole shape pattern data suitable for the sewing area by setting the sewing area for forming the buttonhole needle stitches. At the time of correcting the pinch-shaped pattern data, only a part of the buttonhole-patterned pattern data can be corrected for all data items of the buttonhole-patterned pattern data, thereby reducing the burden on the operator.

According to the invention as set forth in claim 2, the operator can only correct the detail data item of the buttonhole shape pattern data suitable for the size of the presser by setting the size of the presser used for the formation of the buttonhole needle stitches. Therefore, at the time of correcting the buttonhole shape pattern data, only a part of the buttonhole shape pattern data can be corrected to correct all data items of the buttonhole shape pattern data, thereby reducing the burden on the operator. You can.

According to the invention as set forth in claim 3, the operator can only correct the detail data item of the buttonhole shape pattern data suitable for the fabric cutting length by simply setting the fabric cutting length of the fabric on which the cutting portion is formed by the cloth cutting blade. Therefore, at the time of correcting the buttonhole shape pattern data, only a part of the buttonhole shape pattern data can be corrected, so that all data items of the buttonhole shape pattern data can be corrected. I can alleviate it.

According to the invention of claim 4, even when the cloth cutting length of the buttonhole shape pattern data is longer than the cloth cutting blade, the control means can form buttonhole needle stitches based on both data. Thereby, the range which can form a buttonhole needle stitch can be enlarged, regardless of the size of a cloth cutting blade.

According to the invention of Claims 5-7, it can be set as the button piercing sewing machine with high versatility according to the request of an operator.

Claims (7)

A shape for setting a desired buttonhole shape pattern from a shape data storage means for storing a plurality of buttonhole shape pattern data and a buttonhole shape pattern based on the buttonhole shape pattern data stored in the shape data storage means. A buttonhole sewing machine for forming buttonhole stitch needle stitches on the basis of pattern setting means and buttonhole stitch shape pattern data corresponding to the buttonhole shape pattern set by the shape pattern setting means, Sewing area setting means for setting a sewing area for forming buttonhole needle stitches; Shape data correction means for correcting the buttonhole shape pattern data stored in the shape data storage means by expanding or contracting according to the set sewing area; And a control means for forming buttonhole needle stitches based on the buttonhole shape shape pattern data corrected by the shape data correction means. A shape for setting a desired buttonhole shape pattern from a shape data storage means for storing a plurality of buttonhole shape pattern data and a buttonhole shape pattern based on the buttonhole shape pattern data stored in the shape data storage means. A buttonhole sewing machine for forming buttonhole stitching stitches on the basis of pattern setting means and buttonhole stitching shape pattern data corresponding to the buttonhole-shaped pattern set by the shape pattern setting means, Size data storage means for storing size data of a plurality of pressers that press the fabric at the time of buttonhole needle stitch formation; Presser size setting means for setting a desired presser size from the size of the presser based on the size data stored in the size data storage means; Shape data correction means for correcting the buttonhole shape pattern data stored in the shape data storage means by expanding or reducing the shape according to the size of the presser set by the presser size setting means; And a control means for forming buttonhole needle stitches based on the buttonhole shape shape pattern data corrected by the shape data correction means. A shape for setting a desired buttonhole shape pattern from a shape data storage means for storing a plurality of buttonhole shape pattern data and a buttonhole shape pattern based on the buttonhole shape pattern data stored in the shape data storage means. A buttonhole sewing machine for forming buttonhole stitch needle stitches on the basis of pattern setting means and buttonhole stitch shape pattern data corresponding to the buttonhole shape pattern set by the shape pattern setting means, Cloth cutting length setting means for setting the cloth cutting length of the cloth on which the cutting portion is formed by the cloth cutting blade; Shape data correction means for correcting the buttonhole shape shape data stored in the shape data storage means by expanding or reducing the buttonhole shape pattern data in accordance with the cloth cutting length set by the cloth cutting length setting means; And control means for forming buttonhole needle stitches based on the buttonhole shape pattern data corrected by the shape data correction means, The buttonhole shape pattern data includes at least a sewing length, a cloth cutting length and a latching length, The shape data correcting means corrects by expanding or reducing the stitch length and the length of the stitching according to the fabric cutting length set by the fabric cutting length setting means, And said control means forms buttonhole stitching stitches based on buttonhole shape pattern data including said stitching length and said latching length corrected by said shape data correction means. The method of claim 3, And a scalpel size setting means for setting the size of the cloth cutting scalpel, And the control means forms the buttonhole stitching stitches based on the buttonhole shape pattern data corrected by the shape data correction means and the size of the cloth cutting scalpel set by the scalpel size setting means. Stitch sewing machine. The method of claim 1, An input correction means for correcting the buttonhole shape pattern data by enlarging or reducing the buttonhole shape pattern data based on an input from the outside; And a selection means for selecting which of the shape data correction means and the input correction means to correct by enlarging or reducing the buttonhole shape pattern data. 3. The method of claim 2, An input correction means for correcting the buttonhole shape pattern data by enlarging or reducing the buttonhole shape pattern data based on an input from the outside; And a selection means for selecting which of the shape data correction means and the input correction means to correct by enlarging or reducing the buttonhole shape pattern data. The method of claim 3, An input correction means for correcting the buttonhole shape pattern data by enlarging or reducing the buttonhole shape pattern data based on an input from the outside; And a selection means for selecting which of the shape data correction means and the input correction means to correct by enlarging or reducing the buttonhole shape pattern data.

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