The present invention relates to a multi-needle sewing machine equipped with multiple machine units arranged in parallel, each comprising a thread supply section, a thread take-up arm and a needle bar, in a machine head so as to be capable of making embroidery on cloth.
In a conventional multi-needle sewing machine (for example, the multi-needle sewing machine disclosed in Japanese published unexamined patent application No. 09-000765), the sewing machine shown in the cross-sectional view of
The thread take-up arm drive mechanism 10 comprises a thread take-up arm drive cam 17 fitted on the machine spindle 7; a thread take-up arm drive arm 18 that is pivotally supported using the machine arm 5 at its intermediate portion and rocked reciprocally using the thread take-up arm drive cam 17; and a drive gear 20 secured to the rocking-side end of the thread take-up arm drive arm 18, whereby the drive gear 20 is reciprocated vertically by the rotation of the machine spindle 7.
Next, machine units 37, each comprising a thread supply section (not shown), a thread take-up arm 22, a needle bar 21, etc. are disposed in the moving base frame 6 as shown in
Next, the configuration of the machine unit will be described using
Multiple needle bars 21 arranged in the depth direction in the figure are provided in the needle bar mechanism section 6c of the moving base frame 6 so as to be movable vertically.
An engaging pin 23, directed backward, is protruded at the vertically central portion of each needle bar 21 as shown in
In correspondence with each needle bar 21, the thread take-up arm 22 is rockably provided above the needle bar 21 in the thread take-up arm mechanism section 6b of the moving base frame 6.
A boss 22a secured to the base portion of each thread take-up arm 22 is rotatably fitted on a thread take-up arm shaft 24 that is supported on the moving base frame 6 along the sliding direction of the case. A driven gear 25 that can be meshed with the drive gear 20 provided at the rocking end of the thread take-up arm drive arm 18 is formed around the outer circumference of the boss 22a. In addition, a fitting groove 26 (
Next, numerals 31, 32, 34 and 35 indicated on the right side of the machine head 3 in
Recently, for the purpose of raising the efficiency of sewing, the rotation speed of the machine spindle 7 is increased, and the vertical reciprocation speeds of the needle bar 21 and the thread take-up arm 22 are increased significantly. However, when the speed of the reciprocating operation of the thread take-up arm 22 is increased significantly, the following problems occur.
First, the sewing operation for cloth 29 will be described using the machine unit 37 of the above-mentioned conventional multi-needle sewing machine. As is well known, by the high-speed rotation of the spindle 7, the needle bar 21 is moved toward a thread-supplying hook 28, and the thread take-up arm 22 is reciprocated vigorously in the vertical direction between the top dead center position 22e and the bottom dead center position 22f at the timing shown in
The thread element in the upper portion of the thread (the second thread element 43) located between the through hole 33 of the thread take-up arm 22 located at the top dead center position 22e and the thread guide eye 32 positioned below and having a predetermined length is abruptly pulled downward along a lowering locus 33a by the abrupt lowering of the through hole 33 of the thread take-up arm 22 to the bottom dead center position 22f; hence oversupply occurs at the space 33b between the through hole 33 located at the bottom dead center 22f and the thread guide eye 32, thereby causing a phenomenon in which the second thread element becomes uncontrollable in the wide space 33b near the thread guide eye 32 while instantaneously making a small loop.
In that case, when sewing is carried out using an ordinary thread, the thread take-up arm 22 immediately rises toward the top dead center position 22e, thereby dissolving the problem of the above-mentioned oversupply.
However, various kinds of threads have been provided because of the development of chemical fibers, and various types of thread twisting, such as left twisting, right twisting, strong twisting and weak twisting, have become available; hence, the end of the loop is formed to have an acute angle owing to thread twisting (twining) at the moment of the “oversupply state” in the space 33b between the through hole 33 and the thread guide eye 32 depending on the property of the thread, and the end of the loop is twined narrowly. For example, the end of the loop is twined to have the state indicated by numeral 43b in
An object of the present application is to provide a multi-needle sewing machine capable of making embroidery by selectively using multiple machine units arranged in parallel.
Another object of the present application is to provide a multi-needle sewing machine having a thread twining (twisting) preventing unit that can be configured in a narrow width space even when the width of a machine head in which the multiple machine units arranged in parallel are installed is small.
Still another object of the present application is to provide a multi-needle sewing machine capable of effectively preventing the twisting (twining) of the second thread element that becomes an “oversupply state” owing to abrupt lowering, by disposing a receiving member or the like having a very simple configuration at a position deeper than the bottom dead center position of the thread take-up arm even when the vertical reciprocation speeds of the needle bar and the thread take-up arm are increased to raise the efficiency of sewing.
The other objects and advantages of the present invention will become clear easily from the drawings and the following descriptions related thereto.
A multi-needle sewing machine being configured:
a moving base frame 6 is provided on the front side of a machine head 3 so as to be able to reciprocate in the lateral direction, and multiple machine units 37 are arranged in parallel on the moving base frame 6, each machine unit 37 comprising a thread supply section 6a, a thread take-up arm 22 and a needle bar 21 in this order from above,
said moving base frame 6 is reciprocated in a lateral direction 65 so that any one of said multiple machine units 37 can be selected and used,
at an upper position of a thread passage 51 on one side of said thread take-up arm 22 in each machine unit 37, a first thread guide eye 31 for guiding a first thread element 42 supplied from said thread supply section 6a to a second thread guide eye 32 provided below via said thread passage 51 is provided, and
a position of said second thread guide eye 32 is determined at a lower position below said thread passage 51 and below the position of a through hole 33 of said thread take-up arm 22 located at the bottom dead center 22f while having a predetermined space 59, said second thread guide eye 32 is configured so as to be able to return said first thread element 42 and to guide said thread element serving as a second thread element 43 toward said through hole 33 of said thread take-up arm, and a third thread guide eye 34 is provided in the vicinity said second thread guide eye 32 so as to be able to guide a third thread element 44 going to a needle 21a after passing through said through hole 33 of said take-up arm, when sewing is carried out by vertically moving said thread take-up arm 22 and said needle bar 21 of said machine unit 37, said first thread element 42, said second thread element 43 and said third thread element 44 are sequentially guided using said first thread guide eye 31, said second thread guide eye 32, said through hole 33 of said thread take-up arm and said third thread guide eye 34, thereby advancing toward said needle, wherein
in said thread passage 51 of each machine unit 37, in an upper half zone 60 at least in said space 59 between the position of said through hole 33 of said thread take-up arm located at the bottom dead center 22f and the position of said second thread guide eye 32 provided therebelow, when said through hole of said thread take-up arm lowers abruptly from a top dead center to the bottom dead center, said second thread element 43a that is pulled using said through hole 33 of said thread take-up arm and abruptly lowered, and said second thread element being in an oversupply state is deflected; in a depth direction to which said second thread element is deflected and at a position near a place in which a beaten portion of said second thread element being deflected can be received, a beaten thread receiving face 53a is provided, and jump preventing faces 54a are provided to make the beaten portion 43a of said second thread element come into contact with positions on both sides of said receiving face 53a and enclosing a front space of said receiving face so as to prevent the oversupply portion 43a of said second thread element 43 from jumping.
When embroidery is made on cloth in the present invention, the multiple machine units arranged in parallel are moved laterally and used selectively, thereby being capable of making beautiful embroidery on the face of the cloth.
Even when thread take-up arms 22, needle bars 21, etc., to be arranged in parallel on a moving base frame 6 in a machine head, are arranged in parallel at narrower intervals therebetween to downsize the machine head, a beaten thread receiving face 53a according to the present invention can be provided at the narrower intervals.
In other words, because each beaten thread receiving member 53 provided in a twisting (twining) preventing member 50 is disposed at a recessed position at the bottom dead center of the thread take-up arm to receive a second thread element 43 that is deflected thereto when the thread take-up arm lowers, its area occupied in the width direction can be made very small.
This is applicable to a situation in which the needle bars 21 are arranged in parallel at narrower intervals to downsize the width of the machine head as described above.
Furthermore, in the present invention, even when the rotation speed of the spindle is increased and the vertical reciprocation speeds of the needle bar and the thread take-up arm are increased to raise the efficiency of sewing, the second thread element 43 that is deflected downward in an “oversupply state” as the through hole 33 of the thread take-up arm is lowered abruptly toward the bottom dead center is received using the beaten thread receiving member 53. Because the second thread element 43 is received in this way, the second thread element 43 spreads in a dispersed state along the receiving member 53 and the respective “wall faces” of the jump preventing members 54 positioned on both sides of the receiving member in a state of being pressed against the respective “wall faces,” and is pulled up as the thread take-up arm is then raised abruptly toward the top dead center, without having a chance of twisting (twining).
In the present invention, the second thread element 43 being in the “oversupply state” owing to abrupt lowering toward the bottom dead center can be attached to the “wall face” of the receiving member 53 having a very simple configuration in a free space, without having a time of causing an uncontrollable phenomenon, whereby the present invention has an outstanding effect capable of effectively preventing twisting (twining).
An embodiment of the present application will be described below using FIGS. 1 to 6. Generally speaking, in the case that multiple machine units 37, each comprising a supply section 3a for supplying thread 41, a thread take-up arm 22 and a needle bar 21, are arranged in parallel on a machine head 3, and that embroidery is made on cloth 29, a configuration in which one of the multiple machine units is selected and used is widely known as a well-known matter. In addition, embroidery using the selected machine unit has been described in detail as common technical knowledge using
Hence, for understanding the embodiment of the present application shown in FIGS. 1 to 4, the understanding should be done on the premise of the technical matters including the above-mentioned known matter.
In the case that the configuration and the operation regarding the machine head 3, the moving base frame 6, the thread supplied from the thread supply section 3a to the needle 21a, the thread take-up arm 22, the needle bar 21, etc. shown in FIGS. 1 to 4 are easier to understand when they are described in relation to the technical matters shown in
Next, numeral 3 designates the machine head provided on the front side of the frame, and numeral 6 designates the moving base frame that moves laterally under the guidance of a rail 4 provided on the front side of a machine arm. In the moving base frame 6, the multiple machine units, each comprising the thread supply section 6a, the thread take-up arm 22 and the needle bar 21 as is well known, are provided as shown in the figure.
In the moving base frame 6, numeral 6a indicated above designates the thread supply section, and the thread supply section comprises multiple tension mechanisms 39a, multiple thread breakage detectors 39b, etc., the number of which corresponds to the number of the needles, as is well known, and the thread supply section is configured so as to be able to supply the thread 41 (including thread elements designated by numerals 42, 43, 44, 45 and 46) from each of multiple spools (not shown) disposed above to the needle 21a corresponding thereto. In the figure, the thread is shown partially, and the other most portions thereof are not shown in the figure because they are well known.
In the moving base frame 6, numeral 6b indicated in the intermediate portion of
In this thread take-up arm mechanism section 6b, a plate-like cover (a cover integrally molded using a synthetic resin) 50 exemplified as a thread twining preventing member is removably installed using appropriate fasteners, such as screws, while having an appropriate clearance 6f from the surface 6e of the thread take-up arm mechanism section.
The thread twisting preventing member 50 is configured to have a size capable of covering the surface 6e of the thread take-up arm mechanism section. On the surface of the preventing member 50, thread take-up arm passing slits 52 are arranged in parallel, the number of which corresponds to the number of the thread take-up arms 22, and each of the thread take-up arm passing slits 52 is required to vertically move the through hole 33 of each of the multiple thread take-up arms arranged in parallel between the top dead center 22e and the bottom dead center 22f (for example, approximately 60 mm) using a thread take-up arm shaft 24 as a pivot shaft. In addition, on one side (the side through which the first thread element 42 corresponding to each thread take-up arm is passed) of each of the multiple slits 52, a thread passage 51 formed in a recess shape so as to cause the first thread element 42 to pass through between the first thread guide eye 31 and the second thread guide eye 32 is provided as shown in
The height of the jump preventing member 54 is made lower than the passing locus 42 of the first thread element as shown in the figure to avoid disturbance at the beaten portion 43a of the second thread element 43 owing to the wind pressure from the thread take-up arm lowering abruptly near the bottom dead center of the thread take-up arm.
In the thread passage 51 of each machine unit 37, as shown in
Furthermore, at the positions on both sides of the receiving face 53a and enclosing the front space 51 of the receiving face 53a, the jump preventing faces 54a and 54a are provided to make the beaten portion 43a of the second thread element 43 come into contact with and cling to the “face”, thereby preventing the second thread element 43 from jumping. The depth dimension 61 of the thread passing groove and the width dimension 63 of the thread passing groove cannot be determined uniformly because the deflecting inertia of the thread 41 is different depending on the rotation speed of the spindle (the lowering speed of the thread take-up arm), the kind, the thickness and the type of twisting of the thread, as in the case of the deflecting dimension 62; however, the depth dimension of the thread passing groove should only be approximately 2 mm to 6 mm, and the width dimension of thread passing groove should only be approximately 4 mm to 8 mm, for example. The receiving face 53a and the jump preventing faces 54a and 54a should only be extended upward as shown in the figure beyond the space 59 between the position of the through hole 33 of the thread take-up arm located at the bottom dead center 22f and the position of the second thread guide eye 32 provided therebelow.
Next, in each of the machine units 37, 37, . . . , 37 arranged in parallel, at the upper position of the thread passage 51 through which the first thread element 42 passes and on one side (the right side in
Next, as shown in
The second thread guide eye 32 is configured so as to be able to return the first thread element 42 going down along each thread passage 51 and to guide the thread element serving as the second thread element 43 toward the through hole 33 of each thread take-up arm 22.
Next, each of the multiple third thread guide eyes 34 arranged in parallel, with respect to the extending member 56 provided below the thread twisting preventing member 50 shown in
In the moving base frame 6, numeral 6c indicated in the lower portion designates a needle bar mechanism section, and a needle bar drive mechanism for vertically driving the needle bar 21 and the needle 21a of the selected machine unit 37 in synchronization (as shown in
In this kind of configuration, when sewing is carried out by moving the moving base frame 6 in the lateral direction (indicated by arrow 65), by selecting one of the multiple machine units 37 arranged in parallel and by vertically moving the thread take-up arm 22 and the needle bar 21 of the selected machine unit 37, the elements of the thread 41, such as the first thread element 42, the second thread element 43 and the third thread element 44, are sequentially guided using the first thread guide eye 31, the second thread guide eye 32, the through hole 33 of the thread take-up arm 22 and the third thread guide eye 34, thereby advancing toward the needle 21a.
The usage state of the sewing machine shown in FIGS. 1 to 4 (also refer to
However, in the configuration shown in
At the next moment, the thread take-up arm rises, and the second thread element 43 is pulled up. In this way, the “oversupply portion 43a” of the second threat element 43 can be used for continuous sewing without being twisted (twined).
Number | Date | Country | Kind |
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2005-325756 | Nov 2005 | JP | national |