KR20120016531A - Apparatus for sewing airbag cushion - Google Patents

Abstract

PURPOSE: An apparatus for sewing an airbag cushion is provided to control tension of sewing thread and to uniformly sew a fabric. CONSTITUTION: An apparatus for sewing an airbag cushion comprises a sewing needle, a sewing head(2), and first tension control unit(4). The sewing needle sews a fabric using the sewing thread(10). The first tension control unit is coupled to the sewing head and controls tension of the sewing thread. The first tension control unit has a first fixing device(41) and a first control device(42).

Description

Apparatus for Sewing Airbag Cushion

The present invention relates to a sewing apparatus for sewing a fabric to produce an airbag cushion.

An airbag is a protective device installed in a vehicle, and protects the driver or passenger from the impact of the vehicle collision by inflating the airbag cushion when the vehicle collides. The airbag cushion used in such an airbag is manufactured through a process of sewing a fabric using a sewing device.

Sewing device for airbag cushion according to the prior art sewing the fabric while maintaining the same tension of the sewing thread for sewing the fabric at all times. Accordingly, the airbag cushion sewing apparatus according to the prior art has a problem that the fabric is not uniformly sewn, such as a portion that is loosely sewn in comparison with the other parts of the fabric. The loosely sewn portion of the fabric has a problem of degrading the performance of the airbag cushion, for example, air barrier property, pressure resistance performance, and the like.

The present invention has been made to solve the problems described above, an object of the present invention is to provide a sewing device for an airbag cushion that can uniformly sewn the fabric for manufacturing the airbag cushion.

In order to achieve the above-mentioned object, the present invention can include the following configuration.

The sewing apparatus for airbag cushion according to the present invention is a sewing needle for sewing the fabric using a sewing thread, the sewing head is lowered to raise and lower the sewing needle so that the sewing needle is coupled to the lowering and sewing the fabric, and the sewing head It may be coupled to and may include a first tension control unit for adjusting the tension of the sewing thread supplied to the sewing needle.

According to the present invention can achieve the following effects.

The present invention can uniformly sew the fabric by adjusting the tension of the sewing thread supplied to the sewing needle, thereby obtaining an effect of improving the quality of the airbag cushion.

1 is a schematic perspective view of a sewing device for an airbag cushion according to the present invention
Figure 2 is an enlarged view of the portion A of Figure 1 in the sewing device for an airbag cushion according to the invention
3 to 6 is a conceptual diagram regarding the form in which the fabric is sewn
7 and 8 is an operating state of the first tension control unit according to the present invention
9 is a block diagram of a connection relationship between a control unit and a first tension control unit according to the present invention;
10 is an enlarged view of a portion A of FIG. 1 in a sewing device for an airbag cushion according to a modified embodiment of the present invention.
11 is an enlarged view of portion A of FIG. 1 of a nozzle mechanism according to a modified embodiment of the present invention.
12 is a block diagram of a connection relationship of a control unit according to the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the airbag cushion sewing apparatus according to the present invention will be described in detail.

1 is a schematic perspective view of a sewing device for an airbag cushion according to the present invention, Figure 2 is an enlarged view of the portion A of Figure 1 in the sewing device for an airbag cushion according to the present invention, Figures 3 to 6 is the fabric is sewn 7 and 8 are views of the operation state of the first tension control unit according to the present invention, Figure 9 is a block diagram of the connection relationship between the control unit and the first tension control unit according to the present invention, Figure 10 Is an enlarged view of portion A of FIG. 1 in the sewing apparatus for an airbag cushion according to a modified embodiment of the present invention, and FIG. 11 is an enlarged view of portion A of FIG. 1 of a nozzle mechanism according to a modified embodiment of the present invention. 12 is a block diagram of a connection relationship of a control unit according to the present invention.

1 and 2, the airbag cushion sewing apparatus 1 according to the present invention can sew the airbag cushion fabric fabric 20 using a sewing thread (10). Sewing device for airbag cushion 1 according to the present invention can sew the fabric 20 by using the upper thread sewing thread and the lower thread sewing thread on the basis of the fabric 20, below, the upper thread sewing thread 10 ), And the lower thread sewing thread is defined as a lower thread 11 (shown in FIG. 2). The sewing apparatus 1 for an airbag cushion according to the present invention includes a sewing head 2, a sewing needle 3, and a first tension control unit 4.

The sewing head 2 may raise and lower the sewing needle 3 so that the fabric 20 is sewn. The sewing needle 3 is coupled to the sewing head 2 to be lowered. Although not shown, the sewing head 2 may include a lifting device for lifting up and down the sewing needle 3. The elevating device may raise and lower the sewing needle 3 using a cylinder method using a hydraulic cylinder or a pneumatic cylinder. The elevating device uses the sewing method (3) by using a gear method using a motor, a rack gear and a pinion gear, a ball screw method using a motor and a ball screw, a belt method using a motor, a pulley and a belt, and the like. You can also raise and lower.

The sewing head 2 may be coupled to the main body 100. The main body 100 may include a stage 101 on which the fabric 20 is positioned, and a frame 102 to which the sewing head 2 is coupled. The sewing head 2 may be coupled to the frame 102 such that the sewing needle 3 is positioned on the fabric 20. The sewing apparatus 1 for an airbag cushion according to the present invention may sew the fabric 20 in a set sewing form by moving at least one of the sewing head 2 and the fabric 20. The sewing type may vary depending on the type of airbag in which the airbag cushion is used. For example, the airbag may include a front airbag (front type airbag), a side airbag, a curtain type airbag, and the like, and the shape of the airbag cushion and the sewing form may vary according to the type of the airbag. Although not shown, the sewing device 1 for an airbag cushion according to the present invention may include at least one of a first moving device for moving the sewing head 2 and a second moving device for moving the fabric 20. Can be. The second moving device may move the far end 20 by moving the stage 101.

1 and 2, the sewing needle 3 may sew the fabric 20 using the sewing thread 10. A through hole 31 is formed at one end 3a of the sewing needle 3. The sewing thread 10 is connected to the sewing needle (3) through the through hole (31). When the sewing needle 3 is moved up and down on the basis of the fabric 20, the sewing thread 10 is below the fabric 20 and the fabric 20 of the sewing needle 3 The fabric 20 can be sewn while moving up.

The sewing needle 3 can be raised and lowered between the rising position and the lowering position by the sewing head (2). When the sewing needle 3 is located in the raised position (shown in solid line in FIG. 2), one end 3a of the sewing needle 3 is positioned above the fabric 20. When the sewing needle 3 is located in the lowered position (shown in dashed lines in FIG. 2), one end 3a of the sewing needle 3 is positioned below the fabric 20 through the fabric 20. do. When the sewing needle 3 is located in the lowered position (shown in dashed line in FIG. 2), one end 3a of the sewing needle 3 is positioned below the lower thread 11 under the fabric 20. Can be. In this state, when the sewing needle 3 is raised, the sewing thread 10 may be connected to the lower thread 11 to sew the fabric 20. The lower thread 11 may be formed of the same material as the sewing thread 10, and may be supplied to be positioned below the fabric 20 by a lower thread supply unit (not shown).

1 to 6, the first tension control unit 4 may adjust the tension of the sewing thread 10 supplied to the sewing needle 3. The sewing thread 10 may be supplied from the sewing thread supply unit 200 (shown in FIG. 1) to the sewing needle 3 via the first tension control unit 4. The first tension control unit 4 may be coupled to the sewing head 2 to be located between the sewing thread supply unit 200 and the sewing needle (3). The first tension control unit 4 may increase or decrease the tension of the sewing thread 10 supplied to the sewing needle 3. Therefore, the airbag cushion sewing device 1 according to the present invention can produce a uniformly sealed airbag cushion. Looking specifically at this, it is as follows.

When the sewing apparatus 1 for the airbag cushion according to the present invention sews the fabric 20 while always maintaining the same tension of the sewing thread 10 supplied to the sewing needle 3, in the fabric 20 Loosely sewn parts may be generated relative to other parts. The loosely sewn portion of the fabric 20 has a problem of degrading performance of the airbag cushion, for example, air barrier property, pressure resistance performance, and the like. The portion of the fabric 20 that is loosely sewn in comparison with other portions, the kind of the sewing thread 10, the type of the fabric 20, the speed at which the sewing needle (3) is raised and lowered, the sewing needle (3) And a speed at which at least one of the fabrics 20 moves, a relative movement direction of the sewing needle 3 with respect to the fabric 20, and a sewing form with respect to the fabric 20. .

For example, the case where the fabric 20 is loosely sewn according to the relative moving direction of the sewing needle 3 with respect to the fabric 20 will be described. As shown in FIG. 3, the sewing apparatus 1 for an airbag cushion according to the present invention may sew the fabric 20 into two types.

In one embodiment, the direction in which the sewing thread 10 is moved and the direction in which the lower thread 11 is moved are the same in all sections in order to sew the fabric 20 as shown in the upper side in FIG. 3. It is a form of direction (hereinafter referred to as 'forward'). In this case, as shown in FIG. 4, the sewing thread 10 and the lower thread 11 may be connected to each other without twisting to sew the fabric 20.

In another embodiment, as shown in the lower side in FIG. 3, the direction in which the sewing thread 10 is moved and the direction in which the lower thread 11 is moved to sew the fabric 20 are some sections S1 and S2. , S3) forms the opposite direction (hereinafter referred to as 'reverse direction'). In some remaining sections, the direction in which the sewing thread 10 moves and the direction in which the lower thread 11 moves may form the same direction. In this case, as shown in FIG. 5, the sewing thread 10 and the lower thread 11 may be twisted and connected to each other to sew the fabric 20.

3 to 5, the length of the sewing thread 10 used for the lower thread 11 in the forward direction and the reverse direction is changed. Accordingly, when the tension of the sewing thread 10 is maintained the same in the forward direction and the reverse direction, the fabric 20 may be loosely sewn in comparison with the sewing portion in the reverse direction compared to the sewing portion in the forward direction.

As another example, looking at the case where the fabric 20 is loosely sewn according to the sewing form for the fabric 20, as follows. As illustrated in FIG. 6, the fabric 20 may be sewn in a complex sewing form, such as sewing portions forming a straight line and sewing portions forming a curved line. In FIG. 6, a dotted line indicates a sewing form. Sewing portions constituting the curve may be made of a curve having a different curvature. In this way, the fabric 20 may be loosely sewn at the boundary portion between the straight sewing portion and the curved sewing portion, and the portion where the curvature is changed in the curved sewing portion.

As such, in order to prevent the fabric 20 from being loosely sewn, the first tension control unit 4 may adjust the tension of the sewing thread 10 supplied to the sewing needle 3. 1, 7, and 8, the first tension control unit 4 may include a first fixing mechanism 41 and a first adjusting mechanism 42. 7 and 8 are plan views showing the first tension control unit 4 according to the present invention as viewed in the direction of the arrow E of FIG.

The first fixing mechanism 41 is coupled to the sewing head 2. The sewing thread 10 may be supplied to the sewing needle 3 via the first fixing mechanism 41. The sewing thread 10 may be wound N times (N is an integer greater than 1) to the first fixing mechanism (41). For example, as illustrated in FIG. 7, the sewing thread 10 may be wound five times on the first fixing mechanism 41. The first fixing mechanism 41 may be formed in a cylindrical shape as a whole.

The first adjusting mechanism 42 may adjust the distance between the sewing thread 10 wound on the first fixing mechanism 41. As shown in FIG. 8, the first adjustment mechanism 42 may be adjusted to narrow the gap between the sewing thread 10 wound on the first fixing mechanism 41. Accordingly, the first adjusting mechanism 42 may increase the tension of the sewing thread 10 supplied to the sewing needle 3. As shown in FIG. 7, the first adjusting mechanism 42 may adjust the gap between the sewing thread 10 wound around the first fixing mechanism 41. Accordingly, the first adjusting mechanism 42 may reduce the tension of the sewing thread 10 supplied to the sewing needle 3. The first adjustment mechanism 42 may include a first moving member 421, a first elastic member 422, a first insertion member 423, and a first moving mechanism 424.

The first moving member 421 is movably coupled to the first fixing mechanism 41. The first moving member 421 may be inserted into the first fixing mechanism 41. The first moving member 421 may move closer to the sewing head 2 in the state of being inserted into the first fixing mechanism 41 or move away from the sewing head 2. As shown in FIG. 8, when the first moving member 421 is moved closer to the sewing head 2, the sewing thread 10 wound on the first fixing mechanism 41 may be formed of the first moving member ( 421 may be narrowed to each other. As shown in FIG. 7, when the first moving member 421 is moved away from the sewing head 2, the sewing threads 10 wound on the first fixing mechanism 41 may be spaced apart from each other. Can be. A force may act on the sewing thread 10 wound around the first fixing mechanism 41 in a direction in which the gap between the sewing needles 3 is increased. The first moving member 421 may be formed in a disk shape as a whole.

The first elastic member 422 may provide an elastic force to the first moving member 421 in a direction of narrowing the distance between the sewing thread 10 wound on the first fixing mechanism (41). That is, the first elastic member 422 may provide an elastic force to the first moving member 421 in a direction in which the first moving member 421 approaches the sewing head 2. One side of the first elastic member 422 may be coupled to the first moving member 421, and the other side thereof may be coupled to the first support member 425. The first support member 425 may be coupled to one end of the first fixing mechanism 41. The first elastic member 422 may be a spring.

The first insertion member 423 may be moved between the first position and the second position. As shown in FIG. 7, the first position is a position at which the first insertion member 423 is inserted between the first moving member 421 and the sewing head 2. The first insertion member 423 may push the first moving member 421 while being moved to the first position, whereby the first moving member 421 compresses the first elastic member 422. While moving away from the sewing head (2). Therefore, the gap between the sewing thread 10 wound on the first fixing mechanism 41 may be widened, and the tension of the sewing thread 10 supplied to the sewing needle 3 may be reduced. As shown in FIG. 8, the second position is a position at which the first insertion member 423 is spaced apart from the first moving member 421 and the sewing head 2. When the first insertion member 423 is moved to the second position, the first elastic member 422 may push the first moving member 421 while being tensioned by a restoring force, and thus, the first moving member 421. The member 421 may be moved in a direction closer to the sewing head 2. Therefore, the distance between the sewing thread 10 wound on the first fixing mechanism 41 can be narrowed, and the tension of the sewing thread 10 supplied to the sewing needle 3 can be increased.

The first moving mechanism 424 may move the first insertion member 423 between the first position and the second position. The first moving mechanism 424 may be coupled to the sewing head 2. The first moving mechanism 424 may be a cylinder such as a hydraulic cylinder or a pneumatic cylinder. The first insertion member 423 may be coupled to the rod of the cylinder. Although not shown, the first moving mechanism 424 may include a gear method using a motor, a rack gear, and a pinion gear, a ball screw method using a motor, a ball screw, and the like, a belt method using a motor, a pulley, a belt, and the like. The first insertion member 423 may be moved by using the same.

2, 7 to 9, the airbag cushion sewing apparatus 1 according to the present invention may further include a control unit (5). The control unit 5 may control the first tension control unit 4 to adjust the tension of the sewing thread 10 supplied to the sewing needle (3).

The control unit (5) checks the relative movement direction information of the sewing needle (3) relative to the fabric 20, of the sewing thread (10) supplied to the sewing needle (3) by using the movement direction information The first tension control unit 4 may be controlled to adjust the tension. The relative direction of movement of the sewing needle 3 relative to the fabric 20 is based on the fabric 20 as at least one of the fabric 20 and the sewing needle 3 is moved ( 3) is defined as the relative direction of movement. The movement direction information may be either the forward direction or the reverse direction.

The control unit 5 may control the first tension control unit 4 to reduce the tension of the sewing thread 10 supplied to the sewing needle 3 when the movement direction information is determined to be the forward direction. have. In this case, the first moving mechanism 424 may move the first insertion member 423 to the first position. Accordingly, the first moving member 421 may be moved away from the sewing head 2, and the gap between the sewing thread 10 wound on the first fixing mechanism 41 may be widened.

The control unit 5 may control the first tension control unit 4 to increase the tension of the sewing thread 10 supplied to the sewing needle 3 when the movement direction information is found to be the reverse direction. have. In this case, the first moving mechanism 424 may move the first insertion member 423 to the second position. Accordingly, the first moving member 421 may be moved closer to the sewing head 2, and the interval between the sewing thread 10 wound on the first fixing mechanism 41 may be narrowed.

The control unit 5 may include a movement direction checking module 51 and a control module 52. The moving direction checking module 51 may check the moving direction information. The moving direction information may be provided from at least one of a first moving device for moving the sewing head 2 and a second moving device for moving the fabric 20. The control module 52 may control the first tension control unit 4 using the movement direction information. The movement direction information may be provided from the movement direction confirmation module 51.

2, 6 to 9, the control unit 5 checks the tension control information according to the sewing position in which the sewing needle 3 sewing the fabric 20, and the tension control information The first tension control unit 4 may be controlled to adjust the tension of the sewing thread 10 supplied to the sewing needle 3. The tension control information is to increase the tension of the sewing thread 10 is supplied to the sewing needle (3) in the fabric 20, in order to sew the fabric 20 uniformly and of the sewing thread 10 The position where the tension should be reduced. For example, as shown in FIG. 6, the tension control information indicates that the tension of the sewing thread 10 supplied to the sewing needle 3 should be increased when sewing the F portion of the fabric 20. 20) may include information indicating that the tension of the sewing thread 10 supplied to the sewing needle 3 when sewing the portion G and the like. The tension control information may be data derived by analyzing the airbag cushion in which a predetermined fabric 20 is sewn in a predetermined sewing form and sewing is completed. The tension control information may be data tabled according to the type of the fabric 20, the sewing form, and the like.

The control unit 5 is the tension of the sewing thread 10 is supplied to the sewing needle (3) according to the sewing position that the sewing needle 3 is sewing the fabric 20 by using the tension control information The first tension control unit 4 can be controlled to be adjusted.

For example, when the sewing needle 3 sews the F portion (shown in FIG. 6) in the fabric 20, the control unit 5 of the sewing thread 10 is supplied to the sewing needle 3. The first tension control unit 4 may be controlled to increase the tension. In this case, the first moving mechanism 424 may move the first insertion member 423 to the second position. Accordingly, the first moving member 421 may be moved closer to the sewing head 2, and the interval between the sewing thread 10 wound on the first fixing mechanism 41 may be narrowed.

When the sewing needle 3 sews the G portion (shown in FIG. 6) in the fabric 20, the control unit 5 has a tension of the sewing thread 10 supplied to the sewing needle 3. The first tension control unit 4 can be controlled to be reduced. In this case, the first moving mechanism 424 may move the first insertion member 423 to the first position. Accordingly, the first moving member 421 may be moved away from the sewing head 2, and the gap between the sewing thread 10 wound on the first fixing mechanism 41 may be widened.

2, 7 to 9, the control unit 5 may include a sewing position determining module 53 and a storage module 54. The sewing position confirming module 53 may check sewing position information regarding a sewing position at which the sewing needle 3 sews the fabric 20. The sewing position information may be provided from at least one of a first moving device for moving the sewing head 2 and a second moving device for moving the fabric 20. The storage module 54 may store the tension control information according to the sewing position. The tension control information may be stored in the storage module 54 as data tabled according to the type of the fabric 20, the sewing form, and the like. The control module 52 uses the sewing position information and the tension control information to adjust the tension of the sewing thread 10 supplied to the sewing needle 3 according to the sewing position. ) Can be controlled.

Although not shown, the airbag cushion sewing device 1 according to the present invention may further include a second tension control unit. The second tension control unit may be coupled to the sewing head 2 to be positioned between the first tension control unit 4 and the sewing needle (3). The sewing thread 10 may be supplied from the sewing thread supply unit 200 (shown in FIG. 1) to the sewing needle 3 via the first tension adjusting unit 4 and the second tension adjusting unit. The second tension control unit may increase or decrease the tension of the sewing thread 10 supplied to the sewing needle (3). Therefore, the sewing device 1 for the airbag cushion according to the present invention is to tension the sewing thread 10 supplied to the sewing needle (3) via the first tension control unit 4 and the second tension control unit. The finer the adjustment, the more uniformly sewn the airbag cushion can be produced. The second tension control unit may be configured similarly to the first tension control unit (4).

Here, the sewing needle 3 is rubbed with the fabric 20 in the process of sewing the fabric (20). The sewing needle 3 is heated by such friction, and thus the sewing thread is broken by the heat of the sewing needle 3 (hereinafter, referred to as 'interruption'). There is a problem that can not be done normally. Even if the sewing thread is not broken, the heat of the sewing needle (hereinafter referred to as 'heating') may damage the sewing thread or the fabric, thereby degrading the quality of the airbag cushion. In order to solve this problem, the airbag cushion sewing apparatus 1 according to a modified embodiment of the present invention may further include a spray unit (6). 10 and 11 are front views showing the injection unit and the sewing needle according to the present invention as viewed in the direction of the arrow C of FIG.

1 and 10, the injection unit 6 may inject a fluid for cooling the sewing needle 3. The injection unit 6 may cool the sewing needle 3 by injecting the fluid, thereby preventing the sewing thread 10 from being damaged. Therefore, the sewing apparatus 10 for the airbag cushion according to the modified embodiment of the present invention can be made to facilitate the process of sewing the fabric to manufacture the airbag cushion, it is possible to manufacture an airbag cushion with improved quality have. The heat sink may damage the fabric 20, and the injection unit 6 may prevent the fabric 20 from being damaged by cooling the sewing needle 3.

The injection unit 6 may be coupled to the sewing head 2. As described above, when the sewing head 2 is moved to sew the fabric 20, the injection unit 6 may be moved together with the sewing head 2. The injection unit 6 may cool the sewing needle 3 by injecting a fluid at room temperature. The fluid may be air. The injection unit 6 may include a cooling mechanism 61 (shown in FIG. 1) and a nozzle mechanism 62.

The cooling mechanism 61 may cool the fluid. Accordingly, the injection unit 6 cools the sewing needle 3 by using the fluid cooled by the cooling mechanism 61, thereby lowering the sewing needle 3 compared to using a fluid at room temperature. The temperature can be cooled and the sewing needle 3 can be cooled more quickly. The cooling mechanism 61 may cool the fluid moved to the nozzle mechanism 62. The cooling mechanism 61 may be an air cooler.

The nozzle mechanism 62 may inject the fluid cooled by the cooling mechanism 61. The nozzle mechanism 62 may receive the cooled fluid from the cooling mechanism 61, and cool the sewing needle 3 by spraying the supplied fluid. The nozzle mechanism 62 may be coupled to the sewing head 2 to be positioned next to the sewing needle 3. Accordingly, the sewing needle 3 can be raised and lowered to sew the fabric 20 without being disturbed by the nozzle mechanism 62, and the sewing thread 10 to the nozzle mechanism 62 by the nozzle needle 62. It can be cooled to a temperature that does not damage the fabric (20). The nozzle mechanism 62 may include a first conduit 621 and a second conduit 622.

The first conduit 621 may receive the fluid cooled by the cooling mechanism 61. One side of the first conduit 621 is coupled to the sewing head 2, the other side is connected to communicate with the second conduit 622. The first conduit 621 and the second conduit 622 may be integrally formed.

The second conduit 622 is connected in communication with the first conduit 621. The second conduit 622 may be formed to be inclined in the direction (D arrow direction) toward the sewing needle 3 in the first conduit 621. The fluid supplied from the cooling mechanism 61 may be moved to the second conduit 622 through the first conduit 621 and injected into the sewing needle 3 through the second conduit 622. have. Although not shown, the nozzle mechanism 62 may be coupled to the sewing head 2 in an inclined direction in the direction (D arrow direction) toward the sewing needle 3.

1 and 10, the nozzle mechanism 62 may inject the fluid between the lowered position and the raised position. That is, the sewing needle 3 can be cooled by the fluid injected from the nozzle mechanism 62 while being raised and lowered between the lowered position and the raised position. In this case, the second conduit 622 may be formed to be inclined at an angle capable of injecting a fluid between the falling position and the rising position.

1 and 11, the nozzle mechanism 62 may inject the fluid to a position where one end 3a of the sewing needle 3 is in contact with the fabric 20. That is, the fluid may be injected into the sewing needle 3 and the fabric 20, thereby cooling both the sewing needle 3 and the fabric 20. Therefore, the sewing device 1 for the airbag cushion according to the modified embodiment of the present invention can not only prevent the sewing thread 10 from being damaged by immersion, but also directly prevent the fabric 20 from being damaged. It can prevent. In this case, the second conduit 622 may be formed to be inclined at an angle capable of injecting a fluid at a position where one end 3a of the sewing needle 3 is in contact with the far end 20. The first conduit 411 may be formed longer than the case where the fluid is injected between the falling position and the rising position.

Although not shown, the nozzle mechanism 62 may inject the fluid to the raised position. That is, the sewing needle 3 can be cooled by the fluid injected from the nozzle mechanism 62 when the sewing needle 3 is located in the raised position. In this case, the second conduit 622 may be formed to be inclined at an angle capable of injecting a fluid in the raised position. The first conduit 411 may be shorter than the case where the fluid is injected between the lowered position and the elevated position.

1, 10, and 12, the control unit 5 checks the information on the number of times that the needle needle 3 is raised and lowered per unit time, and the sewing needle ( 3) The injection unit 6 may be controlled to inject a fluid for cooling. The sewing needle 3 may be defined as one time when the sewing needle 3 is lowered from the raised position and positioned at the lowered position and then raised and positioned again at the raised position, and the unit time may be 1 minute. That is, the frequency information may be information about the number of times the sewing needle 3 is raised and lowered in 1 minute. The number of times information may be provided from the sewing head (2). The set number of times is the number of times that the sewing thread 10 to the fabric 20 is not damaged even without cooling the sewing needle 3, for example, may be 1500 times per minute. The set number of times may be changed depending on the type of the fabric 20, the type of the sewing thread 10, and the like.

The control unit 5 may operate the injection unit 6 so that the fluid for cooling the sewing needle 3 is injected when the sewing needle 3 is lowered more than the set number of times. The control unit 5 may not operate the injection unit 6 when the sewing needle 3 is lowered below the set number of times. Therefore, the sewing device 1 for the airbag cushion according to the modified embodiment of the present invention operates the injection unit 6 only when it is necessary to cool the sewing needle 3, thereby the injection unit 6 It is possible to reduce the power energy used to operate the system.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. It will be clear to those who have knowledge.

Reference Signs List 1 sewing machine 2 sewing head 3 sewing needle 3a
4: first tension control unit 5: control unit 6: injection unit
10: sewing thread 11: bobbin thread 20: fabric 31: through hole
41: first fixing mechanism 42: first adjusting mechanism 61: cooling mechanism
62 nozzle mechanism 421 first moving member 422 first elastic member
423: first insertion member 424: first moving mechanism 621: first pipe
622: second pipe 100: main body 101: stage 102: frame

Claims (8)

A sewing needle for sewing the fabric using a sewing thread;
A sewing head configured to raise and lower the sewing needle so that the sewing needle is liftable and lowered and the fabric is sewn; And
Is coupled to the sewing head, the sewing device for an airbag cushion, characterized in that it comprises a first tension control unit for adjusting the tension of the sewing thread supplied to the sewing needle. The method of claim 1, wherein the first tension control unit
A first fixing mechanism coupled to the sewing head and wound with a sewing thread N (N is an integer greater than 1) supplied to the sewing needle; And
And a first adjusting mechanism for adjusting a distance between the sewing threads wound on the first fixing mechanism such that the sewing thread supplied to the sewing needle is increased or decreased. The method of claim 2, wherein the first adjustment mechanism
A first moving member movably coupled to the first fixing mechanism to adjust a spacing between sewing threads wound around the first fixing mechanism;
A first elastic member providing an elastic force to the first moving member in a direction of narrowing the distance between the sewing threads wound around the first fixing mechanism;
A first insertion member moved between a first position inserted between the first moving member and the sewing head and a second position spaced apart from the first moving member and the sewing head; And
The first insertion member is moved to the first position so that the spacing between the sewing thread wound on the first fixing mechanism is opened, and the first insertion member is moved to narrow the spacing between the sewing thread wound on the first fixing mechanism. A sewing apparatus for an airbag cushion, comprising a first moving mechanism for moving to two positions. The method of claim 1,
And a control unit for controlling the first tension control unit to adjust the tension of the sewing thread supplied to the sewing needle;
The control unit checks the relative movement direction information of the sewing needle with respect to the fabric, characterized in that for controlling the first tension control unit to adjust the tension of the sewing thread supplied to the sewing needle using the movement direction information. Sewing device for airbag cushion. The method of claim 1,
And a control unit for controlling the first tension control unit to adjust the tension of the sewing thread supplied to the sewing needle;
The control unit checks the tension control information according to the sewing position of the sewing needle sewing the fabric, and controls the first tension control unit to adjust the tension of the sewing thread supplied to the sewing needle using the tension control information. Sewing device for airbag cushion, characterized in that. The method of claim 1,
And a control unit for controlling the first tension control unit to adjust the tension of the sewing thread supplied to the sewing needle;
The control unit includes a sewing position checking module for checking sewing position information regarding a sewing position at which the sewing needle sews a fabric, a storage module storing tension adjustment information according to the sewing position, and the sewing position information and the tension adjustment. And a control module for controlling the first tension control unit to adjust the tension of the sewing thread supplied to the sewing needle according to the sewing position using the information. The method of claim 1,
Further comprising a injection unit for injecting a fluid for cooling the sewing needle;
The injection unit includes a cooling mechanism for cooling the fluid for cooling the sewing needle, and a nozzle mechanism for injecting the fluid cooled by the cooling mechanism;
And the nozzle mechanism is coupled to the main body so as to be positioned next to the sewing needle. The method of claim 7, wherein
Further comprising a control unit for controlling the injection unit;
The control unit checks the information on the number of times that the needle needle is raised and lowered per unit time, and if the number information is more than the set number of times the airbag cushion, characterized in that for controlling the injection unit so that the fluid for cooling the sewing needle is injected Sewing device.

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