The present invention relates to a sewing machine, in particular to a multi-needle bar module for sewing machines.
The existing sewing machines usually include an upper shaft which drives, through a needle bar driving linkage assembly, one needle bar to move up and down. The needle bar, during the up and down movement, is penetrated through needle holes on a needle plate, so that cloth is sewn by the coordination between the upper threads and the base threads mounted on a base bobbin. With higher requirements of sewing, upper threads of different colors are sometimes required to sew the cloth. Thus, manual change of threads is required during the sewing. This operation is complex, resulting in low efficiency of sewing.
Chinese Utility Model Application No. 201120342948, titled Needle Bar of Two-Needle Sewing Machine and Switching Mechanism Thereof disclosed a needle bar of a two-needle sewing machine and a switching mechanism thereof. This needle bar comprises a hollow needle bar body, the lower end of which is fixedly connected to a needle bar head used for mounting a needle. A reset spring, a first wedge, a second wedge and a switching compression lever are sequentially provided inside the needle bar body. The upper end of the switching compression lever is exposed from the needle bar body. The tip of the first wedge faces downward while the tip of the second wedge faces upward. A first through hole is provided at a position, corresponding to the first wedge, on the side wall of the needle bar body, and a first slider is provided inside the first through hole; and a second through hole is provided at a position, corresponding to the second wedge, on the side wall of the needle bar body, and a second slider is provided inside the second through hole. The switching compression lever comprises a needle bar, a needle bar frame, a needle bar sleeve, a needle bar driving mechanism and a switching compression block, the needle bar sleeve being connected to the needle bar driving mechanism, the needle bar frame being connected to a translation device. The two needle bars in this utility model may be penetrated by two upper threads of different colors. Therefore, a pattern with two colors may be sewn at one time, avoiding changing the threads manually. However, such a two-needle bar structure is complex and has high requirement on the machining precision, resulting in high manufacturing cost. Moreover, manual change of threads is still required when sewing a pattern of three or more colors.
In view of the status of the prior art as mentioned above, the technical issue of the present invention is to provide a multi-needle bar module for sewing machines. Such a multi-needle bar module may be additionally mounted on the existing sewing machines, so that the sewing machines have a multi-needle bar structure to be convenient to sew a pattern of a plurality of colors.
The following technical solution is employed to solve the technical issue of the present invention: a multi-needle bar module for sewing machines is provided, comprising a mounting plate adapted to a front end of a sewing machine head; the mounting plate is equipped in a sliding manner, via a bracket, with a needle bar mounting frame on which at least two needle bars are distributed spaced apart, the needle bars being in an axial sliding fit with the needle bar mounting frame; the mounting plate is provided with a first horizontal guideway and a second horizontal guideway disposed spaced apart, and a needle bar driving block with a neck is disposed between the first horizontal guideway and the second horizontal guideway; the needle bars are provided with guide members that can be clamped into the first horizontal guideway and the second horizontal guideway; and the needle bar mounting frame clamps, by sliding horizontally, the guide member of any one of the needle bars individually into the neck.
To optimize the technical solution mentioned above, the present invention further comprises the following improved technical solutions.
The needle bar driving block is disposed on a vertical guide shaft in a sliding manner.
The needle bars are fixedly connected with a clamping column on which the guide members are located.
The needle bar mounting frame is provided with a vertical slideway, and the clamping column is provided with a slider in sliding fit with the slideway.
A first guide and a second guide are fixed on the mounting plate at intervals, and the first horizontal guideway is located on the first guide while the second horizontal guideway is located on the second guide.
The bracket is fixed with a guide rail arranged horizontally, and the needle bar mounting frame is connected to the slider on the guide rail.
The bracket is fixedly provided with a driving mechanism for driving the needle bar mounting frame to slide.
The driving mechanism comprises a cylinder unit consisting of at least one cylinder, and the driving rod of the cylinder is connected to the needle bar mounting frame.
The driving mechanism comprises a motor, a gear connected to the motor, and a rack disposed on the needle bar mounting frame and meshed with the gear.
The needle bar mounting frame is provided with three needle bars distributed at intervals, and the cylinder unit consists of two cylinders connected to each other.
Compared with the prior art, the multi-needle bar module for sewing machines provided by the present invention may be additionally mounted on the existing sewing machines, so that the existing sewing machines may be easily retrofitted into multi-needle bar sewing machines. The multi-needle bar module is not limited to a two-needle-bar structure, and may be assembled with three, four or more needle bars according to actual requirements, solving the problem that both the single-needle bar sewing machines and the two-needle bar sewing machines require manual change of threads in the process of sewing a pattern due to insufficient color varieties of the upper threads. The multi-needle bar module guides each needle bar via the first horizontal guideway and the second horizontal guideway, and feeds a specific needle bar into the neck of the needle bar driving block via the driving mechanism. Such a multi-needle bar module has the advantages of simple structure and automatic control.
The reference numerals in the drawings have the following meanings: 1—Mounting plate; 11—First horizontal guideway; 12—Second horizontal guideway; 13—First guide; 14—Second guide; 2—Bracket; 21—Guide rail; 22—Slider/Sliding block; 3—Needle bar mounting frame; 31—Needle bar sleeve; 4—Needle bar; 41—Clamping column; 41a—Guide member; 41b—Slider; 42—Needle bar hoop; 5—Needle bar driving block; 5a—Neck; 51—Guide shaft; 6—Cylinder unit; 61—First cylinder; 62—second cylinder; 7—Motor; 71—Gear; and 72—Rack.
A multi-needle bar module for sewing machines provided by the present invention comprises a mounting plate 1 adapted to a front end of a sewing machine head. The mounting plate 1 is equipped in a sliding manner, via a bracket 2, with a needle bar mounting frame 3 on which at least two needle bars 4 are distributed at intervals. The needle bars 4 are in axial sliding fit with the needle bar mounting frame 3. The mounting plate 1 is provided with a first horizontal guideway 11 and a second horizontal guideway 12 disposed at intervals, and a needle bar driving block 5 with a neck disposed between the first horizontal guideway 11 and the second horizontal guideway 12. The needle bars 4 are provided with guide members 41a that can be clamped into the first horizontal guideway 11 and the second horizontal guideway 12. The needle bar mounting frame 3 can clamp, by sliding horizontally, the guide member 41a of any one of the needle bars 4 individually into the neck 5a.
In the exploded assembly view as shown in
A first guide 13 and a second guide 14 are fixed on the mounting plate 1 at intervals. The first horizontal guideway 11 is located on the first guide 13 while the second horizontal guideway 12 is located on the second guide 14.
The mounting plate 1 is fixed with a guide shaft 51, and the needle bar driving block 5 is disposed on a vertical guide shaft 51 in a sliding manner. The needle bar driving block 5 is located between the first guide 13 and the second guide 14, and connected to the needle bar driving linkage assembly. The needle bar driving block 5 may be driven, by the upper shaft and the needle bar driving linkage assembly, to move up and down along the guide shaft 51.
In this embodiment, the needle bar mounting frame 3 is provided with three needle bars 4 distributed at intervals. The needle bar mounting frame 3 is provided with needle bar sleeves 31, and the needle bars 4 are in sliding fit with the corresponding needle bar sleeves 31, respectively. Each of the needle bars 4 can individually move up and down with respect to the needle bar mounting frame 3.
Each of the needle bars 4 is fixedly connected with a clamping column 41. Each of the needle bars 4 is fixed with two needle bar hoops 42 through which the clamping column 41 is fixed. The clamping column 41 may be formed integrally with the body of each of the needle bars 4.
The guide members 41a are located on the clamping column 41, so that the guide members 41a of the needle bars 4 move along the first horizontal guideway 11, the neck 5a and the second horizontal guideway 12 during the horizontal motion of the needle bar mounting frame 3. When the guider 4a of a certain needle bar 4 is clamped into the neck 5a individually, the needle bar 4 may be driven by the needle bar driving block 5 to move up and down to further get into a working state.
The needle bar mounting frame 3 is provided with a vertical slideway, and the clamping column 41 is provided with a slider 41b in sliding fit with the slideway, in order to improve the stability of the needle bars 4 and prolong the service life thereof when they move up and down.
The bracket 2 is fixed with a guide rail 21 arranged horizontally, and the needle bar mounting frame 3 is connected to the slider 22 on the guide rail 21. The bracket 2 is fixedly provided with a driving mechanism for driving the needle bar mounting frame 3 to slide. The needle bar mounting frame 3 is driven by the driving mechanism 3 to move horizontally along the guide rail 21.
The driving mechanism comprises a cylinder unit 6 consisting of at least one cylinder. As the needle bar mounting frame 3 in this embodiment is provided with three needle bars 4, the needle bar mounting frame 3 requires three stroke positions to enable the corresponding needle bar 4 to be clamped into the neck 5a when the needle bar mounting frame 3 reaches one of the stroke positions.
In order to drive the needle bar mounting frame 3 to reach the three determined stroke positions, the driving mechanism in this embodiment comprises a first cylinder 61 and a second cylinder 62 connected to each other; and the driving rod of the first cylinder 61 is connected to the mounting plate 1 while the driving rod of the second cylinder 62 is connected to the needle bar mounting frame 3. The needle bar mounting frame 3 moves to the leftmost stroke position and the rightmost needle bar 4 is clamped into the neck 5a, when the driving rods of the first cylinder 61 and the second cylinder 62 are retracted into the cylinder bodies; when the needle bar mounting frame 3 moves to the middle stroke position and the middle needle bar 4 is clamped into the neck 5a, when the driving rod of one of the first cylinder 61 and the second cylinder 62 is retracted into the cylinder body while the other is extended out from the cylinder body; and, when the needle bar mounting frame 3 moves to the rightmost stroke position and the leftmost needle bar 4 is clamped into the neck 5a, when the driving rods of both the first cylinder 61 and the second cylinder 62 are extended out from the cylinder bodies.
When the machine stops to switch the needle bars 4, the needle bar driving block 5 stops at a preset height to locate the first horizontal guideway 11, the neck 5a and the second horizontal guideway 12 on a same horizontal plane. The driving mechanism drives the needle bar mounting frame 3 to move horizontally to enable each of the needle bars 4 to slide along the first horizontal guideway 11, the neck 5a and the second horizontal guideway 12. When the needle bar mounting frame 3 stops at a certain stroke position, the needle bar 4 corresponding to this stroke position is clamped into the neck 5a individually, and is in linkage with the upper shaft through the needle bar driving block 5 for sewing.
The second embodiment improves the driving mechanism on the basis of the above embodiment. As shown in
The third embodiment reduces the number of the needle bars on the needle bar mounting frame 3 to two on the basis of the first embodiment. The driving mechanism may control the needle bar mounting frame 3 to move between two stroke positions just by one cylinder.
The fourth embodiment increases the number of the needle bars on the needle bar mounting frame 3 to four on the basis of the first embodiment. The driving mechanism may control the needle bar mounting frame 3 to move among four stroke positions by adopting a cylinder unit structure where three cylinders are linearly connected to each other, thus ensuring that, for each stroke position, a corresponding needle bar 4 may be selected to be individually clamped into and work inside the needle bar driving block 5.
The optimal embodiments of the present invention have been illustrated above. Various changes and modifications made by an ordinary person skilled in the art shall not depart from the protection scope of the present invention.
Number | Date | Country | Kind |
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201310293019.5 | Jul 2013 | CN | national |
Filing Document | Filing Date | Country | Kind |
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PCT/CN2014/075543 | 4/17/2014 | WO | 00 |