Patent Application
20080168935
The present invention relates to an apparatus for driving an embroidery frame of a sewing machine, and more particularly, to a driving apparatus of an embroidery frame of a sewing machine in which a driving unit of a sewing frame (embroidery frame) reciprocates on an X-axis fixed frame and/or a Y-axis fixed frame which is installed to a beam-body of the sewing machine so that an uniform driving force can be transmitted to overall the embroidery frame, inferior embroidery caused by vibration of the embroidery frame during the transfer can be prevented, a size of a table of the sewing machine is reduced, and a high-speed operation is enabled.
As generally known in the art, there are an embroidery machine and a sewing machine as sewing machines. The embroidery machine represents a machine in which a sewing needle bar moves up and down and an embroidery frame, to which a workpiece fabric is fixed, travels in the X-axis direction and the Y-axis direction to embroider as a user wishes. The sewing machine is usually used in home.
There is a difference between the sewing machine and the embroidery machine in view that the sewing machine moves the workpiece fabric by a saw tooth-shaped mover and sews the workpiece fabric and the embroidery machine transfers the embroidery frame to hold the workpiece fabric in the X-axis direction and the Y-axis direction to embroider the workpiece fabric.
In the embroidery machine, since the embroidery frame to hold the workpiece fabric moves in the X-axis direction and the Y-axis direction to embroider the workpiece fabric, the precise movement and a constant speed of the embroidery frame are closely connected to the quality of the embroidery.
Accordingly, a servo motor or an induction motor capable of controlling speed is used as a driving unit to move the needle bar of the embroidery machine up and down, a stepping motor which has an excellent positioning function and is easy to control is usually used as a driving unit to move the embroidery machine in the X-axis direction and the Y-axis direction.
There are several types of the embroidery machine such as a single head type automatic embroidery machine having a single head, a multi-head type automatic embroidery machine having two or more heads, and a special embroidery machine such as a computer quilting machine.
Hereinafter, configuration and operation of the conventional embroidery machine will be described with reference to the accompanying drawings.
The multi-head type automatic embroidery machine, as illustrated in
Thus, due to the rotation of the main shaft driving motor 13, the lower shaft 12 and the upper shaft 11 rotate. Due to the rotation of the lower shaft 12, the shuttle 15 is driven to feed the lower thread for the embroidery. Due to the rotation of the upper shaft 11, the needle bar 4a installed in the head 4 is driven to embroider the cloth.
In order to increase the productivity, the embroidery machine usually includes a plurality of head 4 (for example, 10 to 24 heads). The plural heads 4 are connected to each other by a signal rotation shaft (upper shaft), each of the heads 4 has a plurality of needles (for example, 6 to 15 needles), and different colored various threads are connected to the respective needles. Thus, the heads 4 embroider the cloth using various colored threads according to a desired embroidery pattern.
Meanwhile, there are proposed various type movement mechanisms to control and move the embroidery frame positioned on the horizontal sewing table in the X-direction and in the Y-direction (right-to-left and front-to-rear directions) on a planar coordinate based on various embroidery data stored in a computer.
The conventional driving apparatus of an embroidery frame of a sewing machine, as illustrated in
In the lower side of the sewing table 6, a Y-directional movement mechanism 11 is installed to move the embroidery frame 26 in the Y-direction. The Y-directional movement mechanism 11 includes pulleys 67 and 68 supported to rotate at the front side and the rear side thereof, two elongated belts 69 and 70 extended between the pulleys 67 and 68, and a Y-directional driving motor 14 connected to the right and left pulleys 68, positioned at the rear side, by a connecting shaft 13.
The two right and left belts 68 and 70 and the frame driving unit 10 are connected to each other by slits 12 formed in the Y-direction of the sewing table 6.
Thus, the forward and backward rotation of the Y-directional driving motor 14 is controller such that the frame driving unit 10 and the embroidery frame 26 held by the frame driving unit 10 are moved in the Y-direction.
Moreover, in the lower sides of the respective sewing heads 5, cylindrical supports 7 are installed to correspond to the heads 5.
In the frame driving unit 10, an X-directional movement mechanism 21 is installed to move the embroidery frame 26 in the X-direction. The X-directional movement mechanism 21 includes pulleys 71 and 72 rotatably supported by the right and left ends thereof, an elongated belt 73 extended between the pulleys 71 and 72, and an X-directional driving motor directly connected to the right pulley 72.
Connecting bodies 75 are connected to the belt 73 by a predetermined distance, the embroidery frame 26 is horizontally attached to the connecting bodies 75 to protrude toward the front side of the frame driving unit 10.
Thus, the X-directional driving motor 74 rotates forward and backward so that the embroidery frame 26 reciprocates in the X-direction.
However, in the conventional driving apparatus of an embroidery frame of a sewing machine, since the embroidery frame is moved by the elongated timing belt, slip occurs or the timing belt is loosened during the power transmission of the timing belt so that the driving force is not precisely transmitted.
Moreover, when the movement range of the embroidery frame is increased, the length of the timing belt is also increased in the Y-direction. If the length of the timing belt is elongated in the Y-direction, vibration may be easily generated as much as the increased length, there is generated a backlash so that it is difficult to transmit the driving force and there is a limit for a high-speed operation.
Furthermore, due to the Y-directional driving motor positioned at the rear side of the Y-directional movement mechanism, the overall width of the sewing machine is increased.
Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an aspect of the present invention to provide a driving apparatus of an embroidery frame of a sewing machine in which an embroidery frame driving unit reciprocates on an X-axis fixed frame and/or a Y-axis fixed frame which is installed in a beam-body of the sewing machine so that a uniform movement driving force can be transmitted to overall the embroidery frame, the embroidery can be precisely performed according to embroidery data at a high-speed to obtain high-quality embroidered patterns, and the Y-directional width of the sewing machine is decreased to reduce overall width of the sewing machine.
It is another aspect of the present invention to provide a driving apparatus of an embroidery frame of a sewing machine having a rack and pinion type power transmission including gear teeth formed in a fixed frame installed in a beam-body of the sewing machine and a timing belt provided in an embroidery frame driving unit and having gear teeth engaged with the gear teeth of the fixed frame to precisely transmit a driving force.
In accordance with an aspect of the present invention, there is provided a driving apparatus of an embroidery frame of a sewing machine including: at least one X-directional movement mechanism to move the embroidery frame to support an object to be embroidered in right-to-left direction (X-direction); and at least one Y-directional movement mechanism to move the embroidery frame to support an object to be embroidered in front-to-rear direction (Y-direction); any one of the X-directional movement mechanism and the Y-directional movement mechanism including: a fixed frame installed to a beam-body of the sewing machine and having gear teeth; and an embroidery frame driving unit installed on the fixed frame to reciprocate and engaged with the gear teeth to reciprocate the embroidery frame.
Moreover, a driving apparatus of an embroidery frame of a sewing machine including: an embroidery frame driving unit having the embroidery frame to fix and hold an object to be embroidered and placed on a table of the sewing machine; and at least one Y-directional movement mechanism to move the frame driving unit in the front-to-rear direction; the Y-directional movement mechanism including: a fixed frame installed in the upper side of the frame driving unit in the Y-direction and having gear teeth; and an embroidery frame driving unit installed on the fixed frame to reciprocate and engaged with the gear teeth to reciprocate the frame driving unit in the Y-direction.
The driving apparatus further includes an X-directional movement mechanism installed in the frame driving unit to reciprocate the embroidery frame in the X-direction, wherein the X-directional movement mechanism includes: a movable frame installed on the frame driving unit to reciprocate in the X-direction (right-to-left direction) and having gear teeth; and an embroidery frame driving unit engaged with the gear teeth of the movable frame to reciprocate the movable frame in the X-direction.
The movable frame includes a connecting body to freely detach the embroidery frame.
The embroidery frame driving unit includes: an engaging member engaged with the gear teeth formed in the fixed frame; a plurality of rotation members to rotatably support the engaging member; and a driving body to provide a rotational force to the engaging member.
The engaging member includes a belt-type member. The belt-type member includes gear teeth engaged with the gear teeth formed in the fixed frame.
The driving body includes gear teeth engaged with the engaging member.
The embroidery frame driving unit includes: an engaging member engaged with the gear teeth formed in the upper side of the fixed frame; and a driving body to provide a rotational force to the engaging member.
The engaging member includes a pinion.
Power sources are individually installed in the embroidery frame driving units.
The embroidery frame driving unit is driven by a single power source.
The beam-body includes a table.
Thus, the embroidery frame driving unit is installed in the beam-body of the sewing machine to reciprocate on the X-axis fixed frame and/or the Y-axis fixed frame so that a uniform movement driving force can be transmitted to overall embroidery frame, the deterioration of the quality of the embroidery product due to the vibration of the embroidery frame during the movement can be prevented, and the size of the table of the sewing machine can be reduced.
The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which:
Hereinafter, an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.
The driving apparatus of an embroidery frame according to the embodiment of the present invention, as illustrated, includes at least one X-directional movement mechanism 120 to move an embroidery frame 111 to support an object to be embroidered in the right-to-left direction (X-direction), and at least one Y-direction movement mechanism 220 to move the embroidery frame 111 in the front-to-rear direction (Y-direction). Here, one of the X-directional movement mechanism 120 and the Y-directional movement mechanism 220 includes a fixed frame 140 installed to a beam-body of the sewing machine and having gear teeth, and embroidery frame driving units 150 installed on the fixed frame 140 to reciprocate and engaged with the gear teeth to reciprocate the embroidery frame 111.
In more detail, the driving apparatus of an embroidery frame of a sewing machine 100 includes a frame driving unit 108 having the embroidery frame 111 to fix and hold the object to be embroidered and placed on a table 102 of the sewing machine 100, and at least one Y-directional movement mechanism 220 to move the frame driving unit 108 in the forward and backward direction of the sewing machine 100. The Y-directional movement mechanism 220 includes a fixed frame 140 installed in the upper side of the frame driving unit 108 in the Y-direction and having gear teeth, and an embroidery frame driving unit 150 installed on the fixed frame 140 to reciprocate and engaged with the gear teeth to reciprocate the frame driving unit 108 forward and backward in the Y-direction.
Moreover, the driving apparatus of an embroidery frame of a sewing machine further includes an X-directional movement mechanism 120 installed in the frame driving unit 108 to reciprocate the embroidery frame 11 in the X-direction. In this case, the X-directional movement mechanism 120 includes a movable frame 112 installed on the frame driving unit 108 in the X-direction (right-to-left direction) and having gear teeth, and an embroidery frame driving unit 150 engaged with the gear teeth of the movable frame 112 to reciprocate the movable frame 112 in the X-direction.
On the other hand, the embroidery frame driving unit 150, as illustrated in
In this case, the engaging member 212 is implemented by a belt-type member having gear teeth 212a engaged with the gear teeth 141 formed in the fixed frame 140.
Moreover, the plurality of rotation members 213 to 215 supports the engaging member 212, the driving body 211 is positioned between rotation members among the plural rotation members 213 to 215 installed at the positions higher than rotation shafts of the rotation members positioned at the lower side and at the lower side, and the engaging member 212 has a reversed U-shape formed by the driving body 211 installed between the two rotation members.
Moreover, the plurality of rotation members 213 to 215 is implemented by idlers.
In the embodiment of the present invention, although the embroidery frame driving unit 150 of the Y-directional movement mechanism 220 has been described, the embroidery frame driving unit 150 of the X-directional movement mechanism 120 can be implemented as the configuration of the embroidery frame driving unit 150 of the Y-directional movement mechanism 220.
The embroidery frame 111 to fix and hold the object to be embroidered can be freely attached to and detached from the movable frame 112 by the connecting body 113.
A Y-axis driving motor 230 to driving the embroidery frame driving unit 150 is preferably provided in the embroidery frame driving unit 150 of the Y-directional movement mechanism 220 positioned at the center, among a plurality of Y-directional movement mechanisms 220 so as to provide a uniform driving force.
In at least one embroidery frame driving unit 150 configured as described above, a pulley (not shown), mounted to a connecting shaft 114 elongated in the X-direction to drive driving bodies 211 of the respective embroidery frame driving units, is connected to a driving shaft (not shown) of the Y-axis driving motor 230 by a timing belt (not shown) to drive and move the respective embroidery frame driving units.
In some of the fixed frames 140 of the Y-directional movement mechanism 220, in order to prevent vibration and shaking, one sides (front ends) thereof are fixed to upper frames 104 by first brackets 116 and the opposite sides (rear ends) thereof are fixed to a lower frame 110 by second brackets 117 (See
In the lower side of the embroidery frame driving unit 150, as illustrated in
In another embodiment of the present invention, the fixed frame 140 of the Y-directional movement mechanism 220 may be installed in the lower side of the table 102, and the embroidery frame driving unit 150 may reciprocate on the table 102 in the front-to-rear direction (Y-direction) due to a slit formed in the table 102 in the Y-direction.
Moreover, although the X-directional movement mechanism 120 is installed in the frame driving unit 108 such that the embroidery frame driving unit 150 moves the movable frame 112 in the right-to-left direction (X-direction) to move the embroidery frame 111, it is possible that the fixed frame 140 is installed in the frame driving unit 108 and the embroidery frame driving unit 150 reciprocates thereon to move the embroidery frame 11 in the right-to-left direction (X-direction).
On the other hand, power sources to provide the driving force to the movement mechanisms of the embroidery frame described in the embodiments of the present invention may be individually installed to the embroidery frame driving units, or a power source may use a single common driving motor such that a single output shaft is connected to plural driving boxes to drive the movable frame.
Here, the engaging member installed in the embroidery frame driving unit may be a belt type power transmitting member such as a timing belt, a chain, or a driven gear directly engaged with the driving body.
Moreover, the driving body installed in the embroidery frame driving unit and connected to the power source includes all of devices and units to transmit the driving force of the power source such as a timing pulley, a sprocket, a driving gear, a driving pulley, and the like.
Furthermore, the above-described driving apparatus of an embroidery frame of a sewing machine can be applied to every sewing machine to which the Y-directional movement mechanism or the X-directional movement mechanism is applied.
On the other hand, as another example, the embroidery frame driving unit 150 may include an engaging member engaged with the gear teeth formed in the upper side of the fixed frame, and a driving body to provide the rotational force to the engaging member. In this case, preferably, a pinion may be used as the engaging member.
As described above, according to the driving apparatus of an embroidery frame of a sewing machine of the present invention, the embroidery frame driving unit is installed in the beam-body of the sewing machine to reciprocate on the X-axis fixed frame and/or the Y-axis fixed frame so that a uniform movement driving force can be transmitted to overall embroidery frame, the embroidery is precisely performed according to embroidery data at a high-speed to obtain a high-quality embroidery product, and the Y-direction width of the sewing machine is reduced to decrease the overall width of the sewing machine.
Moreover, the movement mechanisms to drive the embroidery frame are installed in the upper side of the table of the sewing machine to transmit a uniform movement driving force to the embroidery frame driving unit, and the deflection and deformation of the embroidery frame driving unit are prevented to precisely drive the embroidery frame at a high-speed to obtain high-quality embroidery patterns.
Furthermore, the embroidery frame driving unit of a sewing machine, having a rack and pinion type power transmission to precisely transmit a driving force using a timing belt with gear teeth, engaged with the gear teeth of the fixed frame having the gear teeth and installed in the beam-body of the sewing machine, is provided, so that a uniform movement driving force can be transmitted to the overall embroidery frame, the embroidery is precisely performed according to the embroidery data at a high-speed to obtain high-quality embroidery patterns, and the Y-directional width of the sewing machine is reduced to decrease the overall width of the sewing machine.
Furthermore, the precision, the high-speed operation, and the durability of the embroidery frame can be achieved, as well, it is possible to minimize the increase of the number of components, costs, and driving noise, to prevent the deflection of the embroidery frame, and to achieve the precise operation of the embroidery frame even when driving a large sized embroidery frame.
Although an exemplary embodiment of the present invention has been described for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.
| Number | Date | Country | Kind |
|---|---|---|---|
| 10-2007-0005457 | Jan 2007 | KR | national |
| 10-2007-0023140 | Mar 2007 | KR | national |
