JP2011161000A - Multi-needle sewing machine provided with sequin feeder - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make an operator feel a work space to be wide by withdrawing a sequin feeder located at the front of a needle location of a multi-needle sewing machine to a side position at which it does not become offensive to the eye prior to the color change work of a color thread inserted into holes at needle tips attached at the respective lower parts of a plurality of needle bars. <P>SOLUTION: The support mechanism 36 of the sequin feeder E includes: a rail 38 formed long toward the multi-needle sewing machine B at the side part of the multi-needle sewing machine B; a base mechanism 40 freely moved back and forth in the longitudinal direction of the rail relative to the rail 38; and a transverse carry-away arm 45 disposed at a position separated from the front surface B1 of the multi-needle sewing machine B. The tip part of the transverse carry-away arm 45 is connected to the main frame 54 of the sequin feeder E, the origin part of the transverse carry-away arm 45 is connected to the base mechanism 40, and by moving the base mechanism 40 forward and backward along the rail 38, the sequin feeder E is moved to a supply position 79 and a withdrawn position 80 for opening the front side of the multi-needle sewing machine B. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  A multi-needle sewing machine that enables embroidery sewing and a sequin supply device that can supply sequins one after another to the needle drop holes in the multi-needle sewing machine can be sewn one after another with the multi-needle sewing machine. The present invention relates to a multi-needle sewing machine including a sequin supply device.

  Conventionally, each has been provided with a multi-needle sewing machine that enables embroidery sewing and a sequin supply device that can sequentially supply sequins to the needle drop holes in the multi-needle sewing machine. Multi-needle sewing machines having sequin supply devices that can be sewn are widely known. For example, Patent Document 1 discloses an embroidery multi-needle sewing machine that includes a sequin supply device, and Patent Document 2 discloses an embroidery multi-needle sewing machine that enables embroidery sewing.

In the above-mentioned Patent Document 1, the configuration of a multi-needle sewing machine including a sequin supply device is provided with a multi-needle sewing machine (embroidery sewing machine) with respect to a base frame (machine frame). A plurality of needle bars are juxtaposed in a vertically movable manner with respect to the lateral movement frame, and each needle bar is configured to be freely selected and moved with respect to the needle drop position by laterally moving the lateral movement frame. Further, in the case of a multi-needle sewing machine, a sequin supply device is provided in front of one of the side needle bars, and when the sequin supply device is used, the side 1 of the multi-needle sewing machine is provided. The needle bar and the sequin supply device are moved with respect to the needle drop position, and the sequins are successively fed to the needle drop positions of the corresponding multi-needle sewing machines so that the sequin can be sewn on the cloth. is there. And
The sequin supply device is tilted with respect to the arm (frame) formed to take out from the side frame connected to the lateral movement frame of the multi-needle sewing machine toward the near side to support its own guide rail. Guide rails (rails) for supporting the main frame that are connected in a state of maintaining the state and extend obliquely upward, and the guide rails provide an upper position closer to the upper side and a lower needle drop position closer to the supply position. A main frame (elevating plate) that is slidably supported in the vertical direction between the positions, a reel that is rotatably provided at the upper part of the main frame, and a reel that is provided at the lower part of the main frame. There is provided a sequin supply mechanism (supply mechanism) configured to supply the extended strip-shaped sequin (tape with continuous sequins) one after another to the needle drop position of the multi-needle sewing machine. Serve cut off one by one at the tip of the belt-shaped sequins, it is so sewn to the cloth in the above embroidery sewing machine.

JP 2005-342369 A Japanese Patent Laid-Open No. 2004-242972 JP 7-328273 A

  In the conventional “multi-needle sewing machine equipped with a sequin supply device” disclosed in Patent Document 1, the multi-needle sewing machine is operated to use a thread attached to one side needle bar. There is an advantage that sequins supplied from the apparatus can be sewn to the cloth.

However, the "multi-needle sewing machine having a sequin supply device" described in Patent Document 1 described above has an arm with a base portion fixed to a side frame portion that is continuous with a lateral movement frame of the multi-needle sewing machine. The guide frame for supporting the main frame is attached to the tip of the arm, and the main frame having the sequin supply mechanism is attached to the guide rail. Among the plurality of needle bars of the multi-needle sewing machine, there is a problem that only "one needle bar at the end" facing the sequin supply mechanism can be used.
In addition, when performing a thread changing operation for passing a thread through a hole in a needle tip attached to the lower part of the “one needle bar at the end portion”, a “large reel” for a strip-like sequin existing above the sequin supply device. ”Approaches the face of the thread changing operator, which becomes an obstacle and reduces the efficiency of the thread changing work.

The purpose of the present application is to select and move a plurality of needle bars in a multi-needle sewing machine to a needle drop position and change sequins supplied from a sequin supply device while changing different multi-colored yarns with multi-colored color yarns. An object of the present invention is to provide a multi-needle sewing machine having a sequin supply device which can be sewn.
Another object is to provide a sequin supply device that was in front of the needle drop position of the multi-needle sewing machine prior to the color changing operation of the colored thread that is passed through the needle tip hole attached to the lower part of each of the plurality of needle bars. An object of the present invention is to provide a multi-needle sewing machine provided with a sequin supply device that is retracted to a side position that does not obstruct the eyes and makes the worker feel a wide working space.
Other objects and advantages will be readily apparent from the drawings and the following description associated therewith.

A multi-needle sewing machine provided with a sequin supply device according to the present invention,
A plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to the lateral movement frame 4 in the multi-needle sewing machine B provided in the base frame A, and each needle bar 7 has a needle drop by moving the lateral movement frame 4 laterally. It is configured to move freely with respect to position 1a,
Further, in front of each multi-needle sewing machine B, there is provided a sequin supply device E that can supply sequins one after another to the needle drop position 1a of the multi-needle sewing machine B,
The sequin supply device E described above has a support mechanism 36 configured to be brought out from the base frame A of the multi-needle sewing machine B toward the front side 77 in order to support the main frame 54 of the sequin supply device E with the base frame A of the multi-needle sewing machine B. When,
A reel 66 provided rotatably at the upper part of the main frame 54 and a strip-like sequin S1 extended from the reel 66 at the lower part of the main frame 54 are successively supplied to the needle drop position 1a of the multi-needle sewing machine B. In the multi-needle sewing machine B including the sequin supply device E including the sequin supply mechanism 70 that is configured to
The support mechanism 36 is arranged in a state of being fixed to the machine frame A on the side of the multi-needle sewing machine B, and a rail 38 that is formed long toward the multi-needle sewing machine B;
A base mechanism 40 configured to freely reciprocate in the longitudinal direction of the rail with respect to the rail 38;
The multi-needle sewing machine B is used in order to allow all needle bars 7 to be selectively moved to the needle drop position 1a by linearly reciprocating the entire area W1 of the needle bar row supported by the lateral movement frame 4 of the multi-needle sewing machine B. A lateral take-off arm 45 disposed at a position away from the front surface B1 of the multi-needle sewing machine B so as to form a lateral movement frame insertion space 46 on the front side of
The front portion of the horizontal carry-out arm 45 is connected to the main frame 54 of the sequin supply device E, and the base portion of the horizontal carry-out arm 45 is connected to the base mechanism 40 so that the base mechanism 40 The sequin supply device E can be moved to a supply position 79 and a retreat position 80 where the front side of the multi-needle sewing machine B is opened.

Preferably, in the multi-needle sewing machine provided with the sequin supply device according to the present invention, a plurality of needle bars 7 are arranged in parallel with the lateral movement frame 4 of the multi-needle sewing machine B provided in the base frame A so as to be movable up and down. Each needle bar 7 is configured to be freely selected and moved with respect to the needle drop position 1a by laterally moving the lateral movement frame 4.
Further, in front of each multi-needle sewing machine B, there is provided a sequin supply device E that can supply sequins one after another to the needle drop position 1a of the multi-needle sewing machine B,
The sequin supply device E described above has a support mechanism 36 configured to be brought out from the base frame A of the multi-needle sewing machine B toward the front side 77 in order to support the main frame 54 of the sequin supply device E with the base frame A of the multi-needle sewing machine B. A reel 66 provided rotatably at the upper part of the main frame 54, and a belt-like sequin S1 extended from the reel 66 at the lower part of the main frame 54, one after another, a needle drop position 1a of the multi-needle sewing machine B In the multi-needle sewing machine B provided with the sequin supply device E provided with the sequin supply mechanism 70 adapted to supply to
The support mechanism 36 is arranged in a state of being fixed to the machine frame A on the side of the multi-needle sewing machine B, and a rail 38 that is formed long toward the multi-needle sewing machine B;
The base mechanism 40 is configured to freely reciprocate in the longitudinal direction of the rail with respect to the rail 38, and on the side of the rail 38 of the moving member 41 in the base mechanism 40, the length of the rail A base mechanism 40 having a plurality of abutting members 42 and 42 that are configured to freely reciprocate in a state of abutting on the upper and lower surfaces of the rail 38 at a plurality of positions in the front and rear directions, respectively;
The multi-needle sewing machine B is used in order to allow all needle bars 7 to be selectively moved to the needle drop position 1a by linearly reciprocating the entire area W1 of the needle bar row supported by the lateral movement frame 4 of the multi-needle sewing machine B. A lateral take-off arm 45 disposed at a position away from the front surface B1 of the multi-needle sewing machine B so as to form a lateral movement frame insertion space 46 on the front side of
The front portion of the horizontal carry-out arm 45 is connected to the main frame 54 of the sequin supply device E, and the base portion of the horizontal carry-out arm 45 is connected to the base mechanism 40 so that the base mechanism 40 The sequin supply device E can be moved to a supply position 79 and a retreat position 80 where the front side of the multi-needle sewing machine B is opened.

Preferably, the multi-needle sewing machine provided with the sequin supply device of the present invention is
A plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to the lateral movement frame 4 in the multi-needle sewing machine B provided in the base frame A, and each needle bar 7 has a needle drop by moving the lateral movement frame 4 laterally. It is configured to move freely with respect to position 1a,
Further, in front of each multi-needle sewing machine B, there is provided a sequin supply device E that can supply sequins one after another to the needle drop position 1a of the multi-needle sewing machine B,
The sequin supply device E described above has a support mechanism 36 configured to be brought out from the base frame A of the multi-needle sewing machine B toward the front side 77 in order to support the main frame 54 of the sequin supply device E with the base frame A of the multi-needle sewing machine B. A reel 66 provided rotatably at the upper part of the main frame 54, and a belt-like sequin S1 extended from the reel 66 at the lower part of the main frame 54, one after another, a needle drop position 1a of the multi-needle sewing machine B In the multi-needle sewing machine B provided with the sequin supply device E provided with the sequin supply mechanism 70 adapted to supply to
The support mechanism 36 is a rail 38 that is arranged in a state of being fixed to the machine frame A on the side of the multi-needle sewing machine B and is formed long toward the multi-needle sewing machine B. Is a rail 38 provided with a guide groove 39c formed long in the longitudinal direction of the rail,
The base mechanism 40 is mounted on the rail 38 so as to freely reciprocate in the longitudinal direction of the rail, and the mounting state of the base mechanism 40 on the rail facing surface of the moving member 41 is as described above. A base mechanism 40 provided with an engaging projection 47 to be freely engaged with a guide groove 39c provided on the rail 38;
The multi-needle sewing machine B is used in order to allow all needle bars 7 to be selectively moved to the needle drop position 1a by linearly reciprocating the entire area W1 of the needle bar row supported by the lateral movement frame 4 of the multi-needle sewing machine B. A lateral take-off arm 45 disposed at a position away from the front surface B1 of the multi-needle sewing machine B so as to form a lateral movement frame insertion space 46 on the front side of
The front portion of the horizontal take-out arm 45 is connected to the main frame 54 of the sequin supply device E, and the base portion of the horizontal take-out arm 45 is connected to the moving member 41 in the base mechanism 40, If the base mechanism 40 is moved back and forth along the rail 38, the sequin supply device E can be moved to the supply position 79 and the retreat position 80 where the front side of the multi-needle sewing machine B is opened. Good.

Preferably, the multi-needle sewing machine provided with the sequin supply device of the present invention is
A plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to the rotation frame 4 in the multi-needle sewing machine B provided in the base frame A, and each needle bar 7 is rotated by rotating the rotation frame 4 to drop the needle. It is configured to move freely with respect to position 1a,
Further, in front of each multi-needle sewing machine B, there is provided a sequin supply device E that can supply sequins one after another to the needle drop position 1a of the multi-needle sewing machine B,
The sequin supply device E described above has a support mechanism 36 configured to be brought out from the base frame A of the multi-needle sewing machine B toward the front side 77 in order to support the main frame 54 of the sequin supply device E with the base frame A of the multi-needle sewing machine B. When,
A reel 66 provided rotatably at the upper part of the main frame 54 and a strip-like sequin extending from the reel 66 at the lower part of the main frame 54 are successively supplied to the needle drop position 1a of the multi-needle sewing machine B. In the multi-needle sewing machine B including the sequin supply device E including the sequin supply mechanism 70 as described above,
The support mechanism 36 is arranged in a state of being fixed to the machine frame A on the side of the multi-needle sewing machine B, and has a rail 38 formed long toward the multi-needle sewing machine B, and the rail 38 A base mechanism 40 that is configured to freely reciprocate in the longitudinal direction, the base part is connected to the base mechanism 40, and the front part is connected to the main frame 54 of the sequin supply device E. A horizontal take-off arm 45;
By moving the base mechanism 40 back and forth along the rail 38, the sequin supply device E can be moved to a supply position 79 and a retreat position 80 where the front side of the multi-needle sewing machine B is opened. is there.

As described above, in the present invention,
In the multi-needle sewing machine B, a plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to the lateral movement frame 4, and each needle bar 7 is selectively moved with respect to the needle drop position 1a by laterally moving the lateral movement frame 4. On the other hand, the sequin supply device E configured to supply sequins one after another to the needle drop position 1a of the multi-needle sewing machine B has its main frame 54 as the base frame A of the multi-needle sewing machine B. Is supported by the same base frame A, is supported in a substantially stationary state, and sequins can be supplied in a stable state. In the multi-needle sewing machine B, a plurality of needle bars 7 are selectively moved to the needle drop position 1a. The sequins supplied in a stable state from the sequin supply device E can be sewn with multicolored yarns while changing different multicolored yarns, thereby providing a colorful product.

  Furthermore, the support state in the support mechanism 36 for supporting the sequin supply device E is such that all the needle bars 7 are reciprocally moved linearly in the entire area W1 of the needle bar row supported by the lateral movement frame 4 of the multi-needle sewing machine. So that the lateral movement frame insertion space 46 is formed on the front side of the multi-needle sewing machine B, that is, the lateral take-off arm 45 is moved from the front surface B1 of the multi-needle sewing machine B. Since they are arranged apart from each other, the number of needle bar rows supported by the lateral movement frame 4 of the multi-needle sewing machine B is greatly increased to increase the number of colored yarns, and sequining is performed by changing and using multi-colored colored yarns. This has the effect of enabling colorful sewing.

  Further, in the present invention, even if the horizontal take-off arm 45 is disposed on the front side of the multi-needle sewing machine B, the horizontal take-off arm 45 is not attached to the rail 38 fixed to the machine frame A. Therefore, when you want to open the front side of the multi-needle sewing machine B, such as when changing the thread, the side of the side with the sequin supply device E It can be moved to the retreat position 80, and there is a convenient effect for securing a work space on the front side of the multi-needle sewing machine B such as a thread change operation.

The front view of the slide-type multi-needle sewing machine which abbreviate | omitted the sequin supply apparatus. FIG. 3 is a cutaway view for explaining the internal operation of the sliding multi-needle sewing machine. In the right side view of the sequin supply device that is mounted via a support mechanism to the machine frame for supporting the multi-needle sewing machine, the machine frame, a part of the multi-needle sewing machine, and a part of the support mechanism are omitted. Figure. In the left side view of the sequin supply device that is mounted via a support mechanism to the machine frame for supporting the multi-needle sewing machine, the machine frame, a part of the multi-needle sewing machine, and a part of the support mechanism are omitted. Figure. FIG. 5 is an end view taken along line V-V in FIG. 3. In the right side view of the sequin supply device that is mounted via a support mechanism to the machine frame for supporting the multi-needle sewing machine, the machine frame, a part of the multi-needle sewing machine, and a part of the support mechanism are omitted. The figure which made the main frame in the main frame the raise position. The schematic front view for demonstrating the positional relationship of a slide-type multi-needle sewing machine and the sequin supply apparatus arrange | positioned in the near side of a multi-needle sewing machine. FIG. 3 is a schematic plan view for explaining the positional relationship between a sliding multi-needle sewing machine and a sequin supply device arranged on the front side of the multi-needle sewing machine. FIG. 9 is a schematic cross-sectional view at the position IX-IX in FIG. 8 for showing the relationship among the machine frame, the arm member, the rails, and the base mechanism. It is a figure at the time of providing two sets of the slide-type multi-needle sewing machine and the sequin supply device arranged on the near side of the multi-needle sewing machine, (A) is a schematic front view, and (B) is a schematic plan view. The schematic plan view for demonstrating the example from which a support mechanism differs from FIG. (A) A figure is a rail, (B) A figure is a base mechanism, (C) A figure is each partial front view of a horizontal take-out arm. The right side view of FIG. 11 for showing the relationship between the machine frame, arm member, rail, base mechanism, and lateral take-out arm (in part, two lock grooves 39d, 39d and one The guide groove 39e is broken to show the relationship between the projection 47 and the engagement projection 48). The front view of the multi-head rotary type multi-needle sewing machine which abbreviate | omitted a part of sequin supply apparatus. FIG. 6 is a cutaway view for explaining the internal operation of the rotary multi-needle sewing machine. The schematic plan view for demonstrating the positional relationship of a rotary type multi-needle sewing machine and the sequin supply apparatus arrange | positioned in the near side of a multi-needle sewing machine. (A) A figure is a rail, (B) A figure is a base mechanism, (C) A figure is a partial front view of a horizontal taking-out arm. 16 is a right side view of FIG. 16 for showing the relationship among the machine frame, arm members, rails, base mechanism, and lateral carry-out arms (in part, two lock grooves 39d and 39d and one The guide groove 39e is broken to show the relationship between the projection 47 and the engagement projection 48).

Embodiments of the present invention will be described below with reference to the drawings.
1 and 2 show an example in which a base needle A is provided with a multi-needle sewing machine (embroidery sewing machine) B. FIG. In the multi-needle sewing machine (sliding multi-needle embroidery sewing machine) B, a plurality of needle bars 7 are arranged in parallel, and each needle bar 7 is configured to be freely movable with respect to the needle drop position 1a. This is for explaining technical matters, and shows a configuration capable of exhibiting the same function as that of a multi-needle sewing machine that enables embroidery sewing disclosed in Patent Document 2.

1 and 2, reference numerals 1 to 32 indicate a known configuration (for example, refer to Patent Document 2) in the multi-needle sewing machine B.
1 indicates the presence of a bed, and in the figure, a needle plate. Reference numeral 2 denotes a sewing machine head. Reference numeral 3 denotes a fixed frame of the head. The multi-needle sewing machine B of FIG. 1 has a configuration in which a plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to a lateral movement frame 4 that reciprocally moves linearly at a fixed location.
Reference numerals 4 to 17 denote members constituting a needle bar mechanism (a mechanism comprising a needle bar 7 and a member operating in association therewith is referred to as a needle bar mechanism in the present specification). Reference numeral 4 denotes a needle bar holding frame (lateral movement frame) formed in a square frame shape when viewed from the front, and is capable of lateral movement freely at the front portion of the frame 3. The structure of the support of the lateral motion frame 4 is such that a slide provided on the lower side of the intermediate frame 4b of the lateral motion frame 4 with respect to the rail 3b that is laterally arranged as shown in the front portion of the frame 3. A moving member 4c is mounted so as to freely move laterally. A part of the lower frame 4d of the lateral movement frame 4 is sandwiched between a pressing member 3f and a roller 3e provided at the lower part of the frame 3 as shown in FIG.
Reference numeral 4f denotes a rod connected to a yarn changing mechanism (not shown), and the advance / retreat of the lateral movement frame 4 is controlled by the advance / retreat thereof.

  Reference numeral 7 denotes a needle bar. A large number of needle bars 7 are arranged in a straight line with respect to the lower frame member 4d of the holding frame 4 (in FIG. 2, the needles arrive above the needle drop position (position of the needle hole 1a)). Each of them is movable up and down with respect to the holding frame 4. 9 is a needle for sewing. 11 is a member for supporting the presser foot, and 14 is a presser foot formed integrally with the member 11, and has a presser portion 15 at the lower end. 16 is a spring for raising the needle bar 7 and the presser foot, and 17 is a spring for raising the needle bar.

Next, reference numeral 20 denotes a drive mechanism for moving the needle bar 7 up and down, which is constituted by members denoted by reference numerals 21 to 28.
Reference numeral 21 denotes a guide bar, which is attached to the frame 3. Reference numeral 23 denotes an elevating body mounted on the guide bar 21 so as to be movable up and down, and has a needle bar presser 23 a for pressing the needle bar 7.
Reference numeral 24 denotes a sewing machine main shaft. If a plurality of multi-needle sewing machines B are operated simultaneously and sewed efficiently, one integrated with another main shaft is used.
Reference numeral 25 denotes a mechanism for converting the rotary motion of the main shaft 24 into vertical motion to move the elevating body 23 up and down. The lever crank mechanism is illustrated as an example. 26 is an eccentric wheel (disk-shaped crank) attached to the main shaft 24, 26a Is a crank rod, 27 is a lever, one end of which is pivotally attached to the frame 3, and a crank rod 26a is connected to an intermediate portion. Reference numeral 28 denotes a link that connects the lever 27 and the lifting body 23.

  Next, reference numeral 4e denotes a balance holding frame, which uses the side wall 4e of the frame body 4 and is movable up and down for raising and lowering the yarns from a plurality of thread stands (not shown) to the plurality of needles 9 with respect to the side wall 4e. Is equipped with a balance. The number of balances 30 is provided corresponding to the number of each needle 9. Reference numeral 31 denotes a balance driving mechanism that selectively drives a balance corresponding to the needle 9 that has arrived above the needle drop position 1a. As is well known, the rotation of the main shaft 24 is transmitted to the vertical movement of the balance. Is for the purpose. Reference numeral 33 denotes a balance retaining plate constructed as is well known. In addition, between the balance 30 and the needle 9, thread guides are disposed at appropriate positions as is well known (not shown).

In the above configuration, when the lifting / lowering body 23 is moved up and down by the rotation of the main shaft 24, the needle bar 7 that is selectively moved above the needle drop position is moved up and down and interlocked therewith. The work clamp 14 is moved up and down. The corresponding balance 30 is moved up and down, and the hook is operated under the bed.
By these operations, sewing is performed as is well known. When changing the color thread, a plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to the lateral movement frame 4 in the multi-needle sewing machine B, so that the rod 4f connected to the thread changing mechanism is operated as is well known. When the lateral movement frame 4 is laterally moved, the arbitrary needle bar 7 is selectively moved with respect to the needle drop position 1a, and sewing is performed with mutually different colored threads as is well known.

Next, a sequin supply device E arranged so as to be able to supply sequin to the needle drop position 1a in front (near side) of the multi-needle sewing machine B shown in FIG. 1 and FIG. The sequins can be successively supplied to the needle drop positions 1a of the corresponding multi-needle sewing machines B in front of the respective multi-needle sewing machines B.
The configuration of each sequin supply device E is similar to a known configuration (see, for example, Patent Document 1) in a support mechanism 36 for stably supporting the main frame 54 and a main frame 54 supported by the support mechanism 36. A guide rail 55, a main frame 60 that moves up and down while being supported by the guide rail, a reel 66 that is mounted on the top of the main frame 60 in the main frame 54, and a sequin supply mechanism that is mounted on the bottom of the main frame 60 It has 70 functions and configurations.

The support mechanism 36 is formed of a hard material (for example, a metal material), and is formed so as to be brought out from the base frame A located on the side of the multi-needle sewing machine B toward the front side 77 in order to support the main frame 54. ing.
In the support mechanism 36, reference numeral 37 denotes an arm member whose base part is fixed to the machine frame A of the multi-needle sewing machine B and the rail 38 is fixedly supported at the front free end.
The rails 38 in the support mechanism 36 are arranged on the side of the multi-needle sewing machine B so as to be long toward the multi-needle sewing machine B as shown in FIGS. Has been. The lateral dimension of the rail 38 is set to a length that allows the supply mechanism 70 drawn by a solid line in FIGS. 7 and 8 to reciprocate toward the retreat position 80 of the supply mechanism 70 drawn by a one-dot chain line. .
In other words, in order to allow all needle bars 7 to be selectively moved to the needle drop position 1a by linearly reciprocating the entire area W1 of the needle bar row supported by the lateral movement frame 4 of the multi-needle sewing machine B. The right end of the cover B2 of the multi-needle sewing machine is set to a length that does not prevent the reciprocating operation toward the position depicted by the alternate long and short dash line.
In order to enable the above operation, the right end of the cover B2 of the multi-needle sewing machine as shown in FIG. 8 enters between the front side of the rail 3b of the multi-needle sewing machine and the lateral take-off arm 45. It is necessary to form the lateral movement frame insertion space 46 necessary for the above. Therefore, the lateral take-out arm 45 is arranged so as to be located slightly away from the movement locus of the front surface B1 of the multi-needle sewing machine B.

   In the rail 38 shown in FIG. 7, FIG. 8, 39a shows the reinforcement board for preventing the vibration of the rail 38 in the up-down direction, 39b is integrally joined to this (fitting means is arbitrary, For example, a rail main body integrated with a large number of screw members as shown in the figure, and the cross-sectional shape is trapezoidal (the dovetail shape) as shown in FIG. The cross-sectional shape corresponds to the bottom wide groove.

Next, in the support mechanism 36 shown in FIGS. 7, 8, and 9, reference numeral 40 denotes a base mechanism that corresponds to the rail 38, and can freely reciprocate in the longitudinal direction of the rail 38 with respect to the rail 38. It is configured.
On the side of the rail 38 of the moving member 41 in the base mechanism 40, there are a plurality of abutments that are configured to freely reciprocate in a state where they abut on the upper and lower surfaces of the rail 38 at a plurality of positions in the longitudinal direction of the rail, respectively. Members 42 and 42 are formed.
In the drawing, reference numeral 41 in the base mechanism 40 is a moving member provided in a state where two abutting members 42 are fixed so as to be detachable and integrated (for example, integrated using bolts). As shown in FIGS. 8 and 9, a horizontal take-out arm 45 is connected via a connecting member 44 so as to be freely connected and disconnected. In addition, what is necessary is just to connect those connection states by a well-known means using a volt | bolt etc.
As described above, the contact member 42 is formed with a dovetail groove (wide bottom groove), and one side wall (for example, the upper side) of the dovetail groove abuts one side wall of the rail main body 39b so that the contact point 43 is formed. In addition, a contact point 43 is formed on the other side wall (for example, the upper side) of the dovetail to contact the other side wall of the rail main body 39b. Furthermore, the mutual members of the contact members 42 provided at a plurality of positions in the longitudinal direction of the rail 38 may be integrated in advance.
Therefore, in the moving member 41, the contact points 43, 43, which are in press contact with the upper part and the lower part of the rail body 39b, respectively, at a plurality of longitudinal positions (two or more) in the longitudinal direction of the rail 38, respectively. Since 43 and 43 are provided, the supply mechanism 70 of the sequin supply device E is substantially vertically movable even if the lateral carry-out arm 45 extends long in the state of FIGS. It is possible to avoid a situation that vibrates greatly. The two upper and lower contact members 42 and 42 attached to the moving member 41 may be separated as shown in the figure, and the contact members 42 and 42 illustrated as separate front and rear members are separated from each other. It may be integrated in the same position. Further, in order to configure the four contact points 43, the contact member 42 may be configured by four wheels.

  Next, the main frame 54 of the sequin supply device E will be described. The front portion of the horizontal carry-out arm 45 is connected to the main frame 54 of the sequin supply device E, and the base portion of the horizontal carry-out arm 45 is connected to the base mechanism 40 so that the base mechanism 40 Is moved forward and backward along the rail 38 to move the sequin supply device E to a supply position 79 (position indicated by a solid line in FIG. 8) and a retreat position 80 (a single point in FIG. 8) to largely open the front side of the multi-needle sewing machine B. (Position indicated by a chain line).

In the main frame 54, the guide rail 55 for supporting the main frame is connected to the support mechanism 36 in an inclined state and extends obliquely upward (see FIG. 3).
In the guide rail 55, 56 a is a main member disposed obliquely as shown in the figure, and the base portion 57 is fixed to the lateral carrying arm 45. A guide member 56b formed like a rail is integrally attached to the main member 56a so that the sliding member 62 of the main frame 60 can be reciprocated in an obliquely upward direction.

The main frame 60 is vertically moved between a rising position 78 (see FIG. 6) close to the upper side by the guide rail 55 and a supply position 79 (see FIGS. 3 and 4) near the lower needle drop position 1a. The sliding is supported freely.
A sliding member 62 is fixed to the side of the main frame 60 facing the guide rail 55 via an auxiliary material 61, and the main frame 60 is moved up and down along the guide member 56b. 60 reciprocates vertically. 63 is a fluid cylinder exemplified as an elevating mechanism for driving the main frame 60. A cylinder 63a is fixed to the guide rail 55, and a rod 63b is fixed to the main frame 60. The frame 60 moves up and down to the positions shown in FIGS.

The reel 66 around which a large amount of the strip-like sequin S1 is wound is 77 closer to the front side than the position of the balance 30 of the multi-needle sewing machine B so as not to disturb the amplitude operation of the thread accompanying the up-and-down reciprocation of the balance in the multi-needle sewing machine B (See FIG. 4), the upper part of the main frame 60 that rises obliquely is provided so as to be rotatable. 67 indicates a pivot shaft of the reel 66, and 68 indicates a guide roller for guiding the strip-shaped sequin S1.

Each sequin supply mechanism 70 configured to supply the strip-like sequin S1 extended from each reel 66 to the needle drop position 1a of each multi-needle sewing machine B is shown in FIGS. As shown in FIG.
As is well known in the art, the sequin supply mechanism 70 rotates the motor 72 to operate the link (reciprocating mechanism) 73 and the reciprocating feed claw 74 to advance and retract. In this case, by the advancement of the feed claw 74, the nail tip is inserted into the sequin hole and the sequin is advanced, and when the feed claw 74 is retracted, it is slid on the sequin. In this way, the strip-like sequin S1 is successively supplied to the needle drop position 1a. The head of the strip-like sequin S1 supplied to the needle drop position 1a is cut by a cutting blade 75 that is actuated by the lowering of the needle bar 7 to form a single “sequin”, positioned on the cloth, and lowered. The cloth 9 is sewn to the cloth by a thread attached to the needle 9. As a matter of course, the operations of the link 73, the feed claw 74, the cutting blade 75, the needle 9 and the like are synchronized with good timing.

  Regarding the configuration of the sequin supply device E, the guide rail 55 supported by the arm, the main frame 60 that moves up and down while being supported by the guide rail, the reel 66 mounted on the upper portion of the main frame 60, the main frame The configuration of the sequin supply mechanism 70 and the like attached to the lower part of the 60 has been described using the same configuration as that disclosed in Patent Document 1, but the configuration of the sequin supply device E is another known configuration, for example, Utilizing technical matters disclosed in Japanese Patent Application Laid-Open No. 2008-114049 or technical matters disclosed in Japanese Patent Application Laid-Open No. 2009-39538 in which technical matters for selectively switching and using a plurality of sequences of sequin feed units are disclosed May be.

Next, FIGS. 10A and 10B showing different examples of the positional relationship between the multi-needle sewing machine B in FIG. 7, FIG. 8, and FIG.
In the description of the drawings in the section of the embodiment for carrying out the invention of the present case, in the description of the subsequent drawings relative to the previous drawings, the configuration using the same reference numerals as the previous drawings, the functions of the members, The properties, means, features, and the like are the same as those described for the same reference numerals in the previous drawings, except for matters relating to the description of the configuration and combination of new members added in the following description. Accordingly, in the description of the subsequent drawings with respect to the previous drawings, a part of the overlapping description is omitted.

  The multi-needle sewing machines B and B shown in FIGS. 10A and 10B show an example in which two units are arranged in parallel with respect to one base frame A. In this case, when the two multi-needle sewing machines B and B are arranged close to each other, the support mechanism 36 of the sequin supply device E attached to each multi-needle sewing machine B is located outside the multi-needle sewing machine B as shown in the figure. It will be. Note that the two multi-needle sewing machines B and B can be brought close to each other as long as the mutual movement frames 4 and 4 do not interfere with each other. In general, the two multi-needle sewing machines B and B are interlocked so that the lateral movement frames 4 and 4 are moved in synchronization with each other. It ’s fine.

Next, FIGS. 11, 12, and 13 showing an example of a support mechanism 36 different from the support mechanism 36 in FIGS. 7 and 8 will be described.
In the support mechanism 36 shown in FIGS. 11, 12, and 13, the base portion 37 is fixed to the machine frame A of the multi-needle sewing machine B, and the base portion 38b of the rail 38 is supported in a fixed state at the front free end. The arm member which is present is shown.
The rails 38 in the support mechanism 36 are arranged on the side of the multi-needle sewing machine B so as to be long toward the multi-needle sewing machine B as shown in FIG. . The width of the rail 38 in FIG. 11 is set to a length that allows the supply mechanism 70 drawn by a solid line to reciprocate toward the retracted position 80 of the supply mechanism 70 drawn by a one-dot chain line. The space on the front side of the multi-needle sewing machine B is widened to facilitate the handling of the cloth there.
In other words, in order to allow all needle bars 7 to be selectively moved to the needle drop position 1a by linearly reciprocating the entire area W1 of the needle bar row supported by the lateral movement frame 4 of the multi-needle sewing machine B. The multi-needle sewing machine cover B2 is adapted to cope with the case where the right end of the cover B2 reciprocates toward the position drawn with a broken line.
In order to enable the above operation, the cover B2 of the multi-needle sewing machine as shown in FIG. 11 is provided between the front side of the rail 3b of the multi-needle sewing machine and the horizontal take-off arm 45 as shown in FIG. It is necessary to form a lateral movement frame insertion space 46 necessary for the right end to enter. For this reason, the lateral take-out arm 45 is arranged so as to be located slightly away from the reciprocating movement locus of the front surface B1 of the multi-needle sewing machine B.

   Next, in the rail 38, 39 c shown in FIG. 12 is a rail main body formed of a plate-like material that is a flat hard material, and includes two lock grooves 39 d and 39 d that are long in the longitudinal direction of the rail 38. A single guide groove 39e is formed in a parallel state.

  Next, in the support mechanism 36, a base mechanism 40 is attached to the rail 38 so as to freely reciprocate in the longitudinal direction of the rail. The mounting state is such that an engaging protrusion 48 (for example, a bolt) that engages with a locking groove 39d provided in the rail 38 on the rail-facing surface of the moving member 41 in the base mechanism 40 and a guide groove. The base mechanism 40 is reciprocated along the rail 38 by providing a protrusion 47 inserted corresponding to 39e (for example, a protrusion whose base is screwed to the moving member 41 as shown). It is like that. The moving member 41 is formed of a plate-like material which is a flat hard material, and can freely reciprocate in the longitudinal direction of the rail 38 even in a state where it is opposed and slid against one surface (front surface) 38c of the rail 38. It is composed of

  The portion of the moving member 41 of the base mechanism 40 facing the one surface 38c of the rail 38 corresponds to the positions of the two lock grooves 39d, 39d and the one guide groove 39e, and each of the grooves 39d, As shown in FIG. 13, screw rods 48 and 48 for fastening and an engaging projection 47 are provided so that they can be inserted into 39 d and 39 e, respectively. Although the mounting means of the engagement protrusion 47 with respect to the moving member 41 is arbitrary, for example, a female screw hole is provided in the moving member 41 as shown in the figure, and a bolt is attached to the extent that the reciprocating movement of the moving member 41 is not hindered from the other surface of the rail 38. It may be stopped in an implanted state. Further, as shown in FIG. 13, the screw rod 48 for fastening is applied with a plate 38a having upper and lower female screw holes on the other surface of the rail 38, and the front of these female screw holes as shown in FIG. By inserting the fastening bolts 48 and 48 in a state of passing through the grooves 39d and 39d from the side to the back, the moving member 41 is reciprocally attached to one surface 38c of the rail 38 by being screwed lightly.

In the above configuration, the tightening screw rod 48 is engaged by slightly loosening the tightening screw rod 48 in which the rail 38 and the moving member 41 of the base mechanism 40 are integrated. 11 can be freely moved along the supply mechanism 70 of the sea queen supply apparatus E at the left end or the right end in FIG.
In particular, when the screw rod 48 is moved to the left end movement destination 39g of the lock groove 39d, this is the stop position, and the supply mechanism 70 of the sea queen supply apparatus E is correctly positioned at the supply position 79. In this case, it is preferable to move in the up-and-down direction (non-vibrating state). Therefore, the screw rod 48 for tightening which has been used as two upper and lower protrusions is strongly tightened, and the rail 38 and the moving member 41 are fixed. It is good to operate so that the up-and-down vibration of the supply mechanism 70 may be substantially eliminated by integrating.
In the case where the supply mechanism 70 is not retracted for a long time, the rail 38 and the moving member 41 may be temporarily fixed to the state shown in FIG.
In the drawing, reference numeral 41 in the base mechanism 40 is a moving member, to which a lateral carry-out arm 45 is connected via a connecting member 44 as shown in FIG. The connection state may be a bolt or the like, but may be connected by a known means such as caulking means or welding.

  Next, examples of different types of multi-needle sewing machines will be described. The multi-needle sewing machine shown in FIGS. 1 and 2 will be described as a rotary multi-needle sewing machine having a different configuration of the laterally moving frame 4. That is, the frame 4 that supports the plurality of needle bar groups of the multi-needle sewing machine shown in FIGS. 1 and 2 is configured to reciprocate linearly, whereas the multi-needle sewing machine shown in FIGS. Is a rotary type, and relates to an example of a multi-needle sewing machine (see Patent Document 3) in which the frame 4 supporting the needle bar group rotates.

An embodiment of a rotary multi-needle sewing machine will be described below with reference to the drawings.
14 and 15 show an example in which a multi-head sewing machine is configured by arranging a plurality of multi-needle sewing machines (embroidery sewing machines) B in parallel on the base frame A so as to be interlocked with each other. In these drawings, in each multi-needle sewing machine (rotary multi-needle embroidery sewing machine) B, a plurality of needle bars 7 are arranged in parallel, and each needle bar 7 can be freely selected and moved with respect to the needle drop position 1a. FIG. 1 is a diagram for explaining the technical matters of the configuration described above, and shows a configuration capable of exhibiting the same function as the multi-needle sewing machine disclosed in Patent Document 3 that enables embroidery sewing.

In the figure, reference numerals 1 to 32 indicate a well-known configuration in the multi-needle sewing machine B (for example, see Patent Document 3).
1 indicates the presence of a bed, and in the figure, a needle plate. Reference numeral 2 denotes a sewing machine head. Reference numeral 3 denotes a head frame. The multi-needle sewing machine B of FIG. 1 has a configuration in which a plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to a rotation frame 4 that draws a rotation locus at a fixed location. Can be arranged at narrow intervals. For example, when the known multi-needle sewing machine B is arranged at intervals of 240 mm, the distance between them can be reduced to about 60 mm.
Reference numerals 4 to 17 denote members constituting a needle bar mechanism (a mechanism comprising a needle bar 7 and a member operating in association therewith is referred to as a needle bar mechanism in the present specification). Reference numeral 4 denotes a needle bar holding frame (rotating frame) which is attached to the frame 3 by bearings 5 and 6 so as to be horizontally rotatable. 4a is a thread guide. Reference numeral 7 denotes a needle bar. A large number of needle bars 7 are arranged side by side with respect to the holding frame 4 on one arc centered on the rotation center of the holding frame 4 (in FIGS. Only the ones that have arrived above the position) are shown), each of which is movable up and down with respect to the holding frame 4. 9 is a needle for sewing. 11 is a member for supporting the presser foot, and upper and lower guide portions 12 and 13 are mounted on the needle bar 7 so as to be movable up and down. 14 is a presser foot formed integrally with the member 11, and includes a presser portion 15 at the lower end. 16 is a spring for raising the needle bar 7 and the presser foot, and 17 is a spring for raising the needle bar.

Next, reference numeral 20 denotes a drive mechanism for moving the needle bar 7 up and down, which is constituted by members denoted by reference numerals 21 to 28.
Reference numeral 21 denotes a guide bar, which is provided at the center of rotation of the holding frame 4. The guide bar 21 is also a member for transmitting the rotation of the needle bar holding frame 4 to a later-described balance holding frame, and is attached to the frame 3 so as to be rotatable. 21 a is a transmission member for transmitting the rotation from the needle bar holding frame 4 to the guide bar 21. Reference numeral 22 denotes a sleeve attached to the frame 3 in order to improve wear resistance between the frame 3 and the guide rod 21. Reference numeral 23 denotes an elevating body mounted on the guide bar 21 so as to be movable up and down, and has a needle bar presser 23 a for pressing the needle bar 7. Reference numeral 24 denotes a sewing machine main shaft, which simultaneously operates a plurality of multi-needle sewing machines B to sew efficiently. Therefore, in each of the plurality of multi-needle sewing machines B, the needle bar 7 can be selectively moved to change the multi-colored yarns, and the sequins can be sewn together with the colorful colored yarns in conjunction with each other.
25 is a mechanism for converting the rotational movement of the main shaft 24 into a vertical movement and transmitting it to the lifting body 23. An example is a lever crank mechanism, 26 is an eccentric wheel (disk-shaped crank) attached to the main shaft 24, and 26a is a crank. A rod 27 is a lever, and one end 27a is pivotally attached to the frame 3, and a crank rod 26a is connected to an intermediate portion. Reference numeral 28 denotes a link that connects the lever 27 and the lifting body 23.

Next, reference numeral 29 denotes a balance holding frame, which is attached to the frame 3 so as to be horizontally rotatable, and is connected to the needle bar holding frame 4 so as to be integrally movable by using the guide bar 21 as a rotation transmission rod. It is. Reference numeral 30 denotes a balance that can be moved up and down to raise and lower the thread reaching the needle 9, and is provided corresponding to each needle 9, and each is attached to a balance holding frame 29. Reference numeral 31 denotes a balance driving mechanism that selectively drives a balance corresponding to the needle 9 that has arrived above the needle drop position 1a. As is well known, the rotation of the main shaft 24 is transmitted to the vertical movement of the balance. Is for the purpose.
A plurality of thread guides 32 arranged in parallel are attached to the balance holding frame 29 so as to be horizontally rotated integrally with the balance 30 and the needle bar 7.
T indicates the presence of a large number of threads from the balance 30 to the needle 9.

In the above configuration, when the lifting / lowering body 23 is moved up and down by the rotation of the main shaft 24, the needle bar 7 that is selectively moved above the needle drop position is moved up and down and interlocked therewith. The work clamp 14 is moved up and down. The corresponding balance 30 is moved up and down, and the hook is operated under the bed.
By these operations, sewing is performed as is well known. When changing the color thread, since the plurality of needle bars 7 are juxtaposed in a vertically movable manner with respect to the rotation frame 4 in the multi-needle sewing machine B, the rotation frame 4 is rotated as is well known. As a result, the arbitrary needle bar 7 is selectively moved with respect to the needle drop position 1a, and sewing is performed with mutually different colored threads as is well known.

Further, in the above-described configuration, the plurality of needle needles 7 are juxtaposed in a vertically movable manner with respect to the rotation frame 4 in which each of the plurality of multi-needle sewing machines B draws a rotation locus at a certain place. Each needle bar 7 is configured so as to selectively move to the needle drop position 1a while drawing a fixed compact trajectory by rotating the rotation frame 4. Since the horizontal width of each can be reduced and the adjacent areas can be arranged close to each other, there is an effect that the entire occupied area in the horizontal width direction at the installation location can be reduced.
In addition, each needle bar 7 is selectively moved to the needle drop position 1a by drawing a fixed compact trajectory by rotating the rotation frame 4, and as shown in FIG. The moving distance w2 between the supply position 79 of the supply device E and the retracted position 80 for opening the front side of the multi-needle sewing machine B is extremely short. As a result, the take-out dimension w3 of the horizontal take-out arm 45 is also shortened. The load on the take-out arm 45 is small, and the vibration preventing means for the side take-off arm 45 is simplified.

    Next, the support mechanism 36 shown in FIGS. 14, 16, 17, and 18 represents one set of a plurality of sets of support mechanisms 36. Reference numeral 37 denotes a plurality of arm members, and as shown in the figure, the base part is arranged with respect to the base frame A positioned between the multi-needle sewing machines B, B,. Each is fixed by any means. As the base frame A, the base part of the arm member 37 may be fixed to the frame 3 which is a fixed part of the head connected to the base frame A.

Next, the sequin supply apparatus E (including the support mechanism 36 (including components, members, means, and the like provided with reference numerals 36 to 48)) illustrated in FIGS. 14 to 18 will be described. The sequin supply device E including these support mechanisms 36 is similar in configuration to the sequin supply device E including the support mechanisms 36 in FIGS. 11, 12, and 13, and the lateral width dimension of the rail 38 in FIG. The laterally extending arm 45 is shortened, and substantially the same configuration is disclosed.
Accordingly, in the description of FIGS. 14 to 18, the configurations, functions, properties, characteristics, and the like of the components, members, and the like using the same reference numerals as those in FIGS. 11 to 13 are the same as those in FIGS. 11 to 13. Because of this, a part of the overlapping explanation is omitted.

  Next, as a configuration related to the combination of the rail 38 and the base mechanism 40 in the support mechanism 36, the combination of the rail 38 and the base mechanism 40 shown in FIGS. 8 and 11 has been described. The configuration relating to the rail in the linear guideway and the block that is movable with respect to the rail may be replaced.

A: Machine frame (base frame),
B ... Multi-needle sewing machine,
S ... Sea Queen,
E ... Sea queen feeder
1 ... Bet,
1a: Needle entry position,
2 ... head,
3 ... head frame,
4 ... Rotation frame (lateral movement frame)
7 ... needle bar,
20 ... Drive mechanism,
36 ... support mechanism,
37. Arm member,
38 ... rail,
39a ... reinforcing plate,
39b ... rail main body,
40: Base mechanism,
41 ... moving member,
42 ... abutting member,
43: Contact point,
44 ... connecting member,
45 ... Horizontal take-out arm,
46: Insertion space,
47 ..engagement protrusion
48 ... Screw rod 48
54 ... main frame 55 ... guide rail,
56a ... main member,
56b ... guide member,
57 ... original part,
58 ... hole,
59 ... Bolt,
60 ... main frame member,
61 ... auxiliary material,
62 ... sliding member,
63: Elevating mechanism,
66 ... reel,
66a: front side portion 67 ... pivot shaft,
68 ... guide roller,
70 ... supply mechanism,
72 ... motor,
73 ... Link (reciprocating mechanism),
74: Reciprocating feed claw,
75 ... Cutting blade,
77 ... This side (the direction where the worker 77a is),
78 ... Ascending position,
79 ... supply position,
80: Retraction position (obliquely raised position),
81 ... workspace,
82 ... Front position

Claims (4)

Multiple needle bars are juxtaposed in a vertically movable manner with respect to the lateral movement frame of the multi-needle sewing machine provided in the base frame, and each needle bar is selectively moved with respect to the needle drop position by laterally moving the lateral movement frame. Is configured freely,
Furthermore, in front of each multi-needle sewing machine, it is equipped with a sequin supply device that can supply sequins one after another to the needle drop position of the multi-needle sewing machine.
The sequin supply device described above has a support mechanism configured to be brought out from the base frame of the multi-needle sewing machine toward the front side in order to support the main frame of the sequin with the base frame of the multi-needle sewing machine,
A reel that is provided rotatably at the upper part of the main frame, and a strip-like sequin that extends from the reel at the lower part of the main frame, one after another, is supplied to the needle drop position of the multi-needle sewing machine. In a multi-needle sewing machine comprising a sequin supply device comprising a mechanism,
The support mechanism is arranged in a state of being fixed to the machine frame on the side of the multi-needle sewing machine, and has a rail formed long toward the multi-needle sewing machine,
A base mechanism that is configured to freely reciprocate in the longitudinal direction of the rail with respect to the rail,
To move the entire needle bar row supported by the horizontal movement frame of the multi-needle sewing machine linearly and reciprocally so that all the needle bars can be selectively moved to the needle drop position, they move laterally to the front side of the multi-needle sewing machine. A horizontal take-off arm disposed at a position away from the front surface of the multi-needle sewing machine so as to form a frame insertion space;
The front part of the lateral take-out arm is connected to the main frame of the sequin supply device, and the base part of the horizontal take-out arm is connected to the base mechanism, so that the base mechanism moves forward and backward along the rail. A multi-needle sewing machine comprising a sequin supply device, wherein the sequin supply device is configured to be movable between a supply position and a retracted position where the front side of the multi-needle sewing machine is opened. Multiple needle bars are juxtaposed in a vertically movable manner with respect to the lateral movement frame of the multi-needle sewing machine provided in the base frame, and each needle bar is selectively moved with respect to the needle drop position by laterally moving the lateral movement frame. Is configured freely,
Furthermore, in front of each multi-needle sewing machine, it is equipped with a sequin supply device that can supply sequins one after another to the needle drop position of the multi-needle sewing machine.
The sequin supply device described above has a support mechanism configured to be carried out from the base frame of the multi-needle sewing machine toward the front side in order to support the main frame of the sequin with the base frame of the multi-needle sewing machine, and the upper part of the main frame. A reel provided movably, and a sequin supply mechanism configured to successively supply a strip-like sequin extended from the reel at the lower part of the main frame to the needle drop position of the multi-needle sewing machine. In a multi-needle sewing machine equipped with a sequin supply device,
The support mechanism is arranged in a state of being fixed to the machine frame on the side of the multi-needle sewing machine, and has a rail formed long toward the multi-needle sewing machine,
A base mechanism that is configured to freely reciprocate in the longitudinal direction of the rail with respect to the rail, and on the side of the rail of the moving member in the base mechanism, there are a plurality of positions in the longitudinal direction of the rail. A base mechanism having a plurality of abutting members configured to freely reciprocate in a state of abutting on the upper and lower surfaces of the rail, respectively,
To move the entire needle bar row supported by the horizontal movement frame of the multi-needle sewing machine linearly and reciprocally so that all the needle bars can be selectively moved to the needle drop position, they move laterally to the front side of the multi-needle sewing machine. A horizontal take-off arm disposed at a position away from the front surface of the multi-needle sewing machine so as to form a frame insertion space;
The front part of the lateral take-out arm is connected to the main frame of the sequin supply device, and the base part of the horizontal take-out arm is connected to the base mechanism, so that the base mechanism moves forward and backward along the rail. A multi-needle sewing machine comprising a sequin supply device, wherein the sequin supply device is configured to be movable between a supply position and a retracted position where the front side of the multi-needle sewing machine is opened. Multiple needle bars are juxtaposed in a vertically movable manner with respect to the lateral movement frame of the multi-needle sewing machine provided in the base frame, and each needle bar is selectively moved with respect to the needle drop position by laterally moving the lateral movement frame. Is configured freely,
Furthermore, in front of each multi-needle sewing machine, it is equipped with a sequin supply device that can supply sequins one after another to the needle drop position of the multi-needle sewing machine.
The sequin supply device described above has a support mechanism configured to be carried out from the base frame of the multi-needle sewing machine toward the front side in order to support the main frame of the sequin with the base frame of the multi-needle sewing machine, and the upper part of the main frame. A reel provided movably, and a sequin supply mechanism configured to successively supply a strip-like sequin extended from the reel at the lower part of the main frame to the needle drop position of the multi-needle sewing machine. In a multi-needle sewing machine equipped with a sequin supply device,
The support mechanism is a rail that is arranged in a state fixed to the machine frame on the side of the multi-needle sewing machine, and is formed long toward the multi-needle sewing machine. A rail provided with a long guide groove toward
A base mechanism that is freely attached to the rail in the longitudinal direction of the rail, and is mounted on the rail-facing surface of the moving member in the base mechanism. A base mechanism provided with an engaging projection for loosely engaging with a guide groove,
To move the entire needle bar row supported by the horizontal movement frame of the multi-needle sewing machine linearly and reciprocally so that all the needle bars can be selectively moved to the needle drop position, they move laterally to the front side of the multi-needle sewing machine. A horizontal take-off arm disposed at a position away from the front surface of the multi-needle sewing machine so as to form a frame insertion space;
The front part of the horizontal take-out arm is connected to the main frame of the sequin supply device, and the base part of the horizontal take-out arm is connected to a moving member in the base mechanism, and the base mechanism is used as a rail. A multi-needle sewing machine provided with a sequin supply device, wherein the sequin supply device can be moved to a supply position and a retracted position for opening the front side of the multi-needle sewing machine by moving forward and backward along . A plurality of needle bars are juxtaposed in a vertically movable manner with respect to the rotating frame of the multi-needle sewing machine provided in the base frame, and each needle bar is selectively moved with respect to the needle drop position by rotating the rotating frame. Is configured freely,
Furthermore, in front of each multi-needle sewing machine, it is equipped with a sequin supply device that can supply sequins one after another to the needle drop position of the multi-needle sewing machine.
The sequin supply device described above has a support mechanism configured to be brought out from the base frame of the multi-needle sewing machine toward the front side in order to support the main frame of the sequin with the base frame of the multi-needle sewing machine,
A reel that is provided rotatably at the upper part of the main frame, and a strip-like sequin that extends from the reel at the lower part of the main frame, one after another, is supplied to the needle drop position of the multi-needle sewing machine. In a multi-needle sewing machine comprising a sequin supply device comprising a mechanism,
The support mechanism is arranged in a state of being fixed to the machine frame on the side of the multi-needle sewing machine, and is reciprocated in the longitudinal direction of the rail with respect to the rail that is formed long toward the multi-needle sewing machine. A base mechanism that is configured to freely move, a base portion is connected to the base mechanism, and a front portion is provided with a lateral carry-out arm that is connected to a main frame of the sequin supply device,
The sequin is configured such that by moving the base mechanism back and forth along a rail, the sequin supply device can be moved between a supply position and a retreat position where the front side of the multi-needle sewing machine is opened. Multi-needle sewing machine equipped with a feeding device.

Images