CN205133964U - Full -automatic multi -head template sewing machine - Google Patents

Abstract

The utility model discloses a full -automatic multi -head template sewing machine, including main framework and frame, the middle part of frame is fixed with the girder, is fixed with a plurality of aircraft noses on the girder, still is fixed with the work platen in the frame, and the girder is at the middle part of work platen, be fixed with main drive motor on the girder, main drive motor's output shaft is fixed with total transmission main shaft through the shaft coupling, and the final drive shaft who is equipped with on the aircraft nose stretches out the girder and is fixed with bevel gear, and total transmission main shaft articulates the support housing who is fixed with on the girder in, the partial fixing that total transmission main shaft is in support housing has transmission bevel gear, and bevel gear and transmission bevel gear mesh mutually, the main frame has been placed on the work platen, it is through fixed template frame in the main framework of work on the platen, and the X axle slider that main framework was equipped with on through the frame drive realizes transversely and longitudinal movement with Y axle slider, moving accuracy is high, and the removal realization template frame's through main framework removal, its machining efficiency height.

Description

A kind of Full-automatic multi-head template sewing machine

Technical field:

The utility model relates to textile machine equipment technical field, relates to a kind of Full-automatic multi-head template sewing machine in particular.

Background technology:

In existing template machine, its template frame is fixed on platen, and realize mobile and sewing by vertically moving of the transverse shifting of head and template, it moves while adopting head and template, and it synchronously requires high, complex structure, and effect is unsatisfactory.

And in existing template machine, its template frame is fixed on the axial mobile gear frame of XY, template frame is fixed with template, and template is bolted on template frame, its fixing trouble, weak effect, handling trouble.

And template frame is fixed on platen, and on it, general head adopted is the special had on Sewing machines, and its complex structure, sewing efficiency is limited.

Utility model content:

The purpose of this utility model overcomes the deficiencies in the prior art, a kind of Full-automatic multi-head template sewing machine is provided, it is by fixed die grillage in the main frame on working plate, and the X-axis carriage that main frame is provided with by frame and Y-axis carriage drive and realize horizontal and vertical movement, without the need to being moved by head, it is easy to make, mobile accuracy is high, easy to make, and its adopts and rotatably compresses cylinder and be clamped on template frame by template, multiple template frame is fixed on main frame simultaneously, the movement of template frame is realized by the movement of main frame, it can be processed multiple template by the multiple heads on template machine, thus greatly improve the efficiency of its processing.

The scheme that the utility model solve the technical problem is:

A kind of Full-automatic multi-head template sewing machine, comprise main frame and frame, the middle part of frame is fixed with girder, girder is fixed with multiple head, frame is also fixed with working plate, girder is at the middle part of working plate, described girder is fixed with main drive motor, the output shaft of main drive motor is fixed with total transmission main shaft by shaft coupling, the final drive shaft that head is provided with stretches out girder and is fixed with bevel gear, total transmission main shaft is hinged in the support housing that girder is fixed with, the partial fixing that total transmission main shaft is in support housing has drive bevel gear, bevel gear is meshed with drive bevel gear,

Described working plate is placed with main frame, described main frame is rectangular box, the middle part of main frame has rectangle and places cell body, four edge that rectangle places cell body are all fixed with connecting rod, multiple template frame is placed on rectangle and places in cell body, the edge of template frame is fixed with multiple contiguous block, and a point contiguous block is bolted to connection on the contiguous block of correspondence, and connecting rod is clamped between corresponding contiguous block and point contiguous block;

The middle part of described template frame has template and places groove, the template frame that template places the side of groove is fixed with and multiplely rotatably compresses cylinder, the push rod rotatably compressing cylinder is fixed with briquetting, and template is placed on template and places in groove, and briquetting is pressed against in the upper plane of template.

Described frame is fixed with multiple X-axis carriage and multiple Y-axis carriage, frame is fixed with X-axis dual output drive motors and Y-axis dual output drive motors, the double output shaft of X-axis dual output drive motors drives the synchronous operation of all X-axis carriages, in the X-axis sliding tray that the X-axis sliding shoe sleeve of all X-axis carriages has on working plate, the double output shaft of Y-axis dual output drive motors drives the synchronous operation of all Y-axis carriages, in the Y-axis sliding tray that the Y-axis sliding shoe sleeve of all Y-axis carriages has on working plate;

Described all X-axis carriages be arranged in parallel and arrange in a row, vertically moving plate is fixed on X-axis sliding shoe, vertically move plate above working plate, lateral movement plate is fixed on Y-axis sliding shoe, the longitudinal side wall of main frame is fixed with longitudinal contiguous block, slideable being arranged on of longitudinal contiguous block vertically moves in plate, the lateral sidewalls of main frame is fixed with lateral connection block, slideable being arranged in lateral movement plate of lateral connection block.

Described X-axis carriage and Y-axis carriage include sliding floor, the two ends of sliding floor are all hinged with drive, conveying belt tensioning is on two drives, the upper plane of sliding floor is fixed with sliding rail, the bottom of belt conveyor is through in the groove sliding rail and sliding floor, X-axis sliding shoe or Y-axis sliding shoe are fixed in the top of belt conveyor, and the bottom surface of X-axis sliding shoe or Y-axis sliding shoe has sliding recess, and sliding rail sleeve is in sliding recess.

The Y-axis sliding shoe of described Y-axis carriage is also fixed with spacing connecting rod, and in the chute body that spacing connecting rod sleeve has in the slip cell body corresponding with the sliding rail of Y-axis carriage, slip cell body is fixed in frame; Described spacing connecting rod is fixed with limited block, and limited block is corresponding with the Y-axis limited block that corresponding Y-axis sliding shoe is fixed with, and two longitudinal side walls of main frame are clamped between limited block and Y-axis limited block.

Described Y-axis carriage is in the lower rear of working plate, and slip cell body is in the lower front of working plate; Described longitudinal contiguous block is fixed with multiple pulley, and pulley sleeve is vertically moving in the mobile chute that plate has; Described lateral connection block also has multiple pulley, in the mobile chute that pulley sleeve has in transverse shifting version; Described X-axis dual output drive motors is connected with corresponding drive by connection for transmission axle with the double output shaft of Y-axis dual output drive motors.

The side of described contiguous block has arc groove, and point contiguous block has point arc groove corresponding with the arc groove of contiguous block, in the clamp groove that connecting rod sleeve holding are formed between the arc groove and point arc groove of correspondence.

Described template frame comprises base plate, the top of base plate and two sides are fixed with three limiting plates, for template places groove above base plate between three limiting plates, three limiting plates are fixed with rotating down pressing cylinder link, rotating down pressing cylinder link are fixed with and rotatably compress cylinder; Described briquetting is arc block, and what the push rod rotatably compressing cylinder was fixed on briquetting departs from curved portions place; The end winding support of the limiting plate of the left and right sides of described template frame has contiguous block.

Described handpiece structure is, the squab panel of head shell there is final drive shaft by bearing hinge connection, final drive shaft is fixed with eccentric wheel, eccentric wheel is hinged with cursor, the other end of cursor is hinged in sewing vertical axes, head shell is fixed with the vertical bar of sewing, sewing inserting is enclosed within the pilot hole that the rear end of sew vertical bar has, and the lower end of vertical axes of sewing is stretched out pilot hole and is fixed with sewing syringe needle;

The bottom plate upper sleeve of described head shell has expansion link, and the lower end of expansion link is stretched out the bottom of head shell and is fixed with threading protection portion, and sewing syringe needle sleeve is in the central through hole of threading protection portion, and the upper end of expansion link is in head shell;

The middle part of described final drive shaft is hinged with capacity eccentric bearing, capacity eccentric bearing is hinged with linking arm, linking arm is hinged with grip block, grip block is fixed with counter drive shaft, in the intermediate membrane that the middle part that counter drive shaft is hinged on head shell has, the front end of counter drive shaft is stretched out intermediate membrane and is fixed with transmission adjusting head, transmission adjusting head has mounting hole, transmission adjusting head is bolted to connection the first vertical bar, the lower end of the first vertical bar is hinged with the second transverse bar, one end of second transverse bar is hinged with the 3rd vertical bar, the lower end of the 3rd vertical bar is fixed on the upper end of expansion link, the head shell that transmission adjusting head is other is bolted with push rod, the lower end of push rod is on spacing roller body that the other end of the second transverse bar is fixed with.

The upper end sleeve of described expansion link in connection block and the lower end of stretching out connection block and the 3rd vertical bar fix, the top of head shell is fixed with connection cylinder, connect the push rod of cylinder straight down and be fixed with centre pilot bar, the lower end of centre pilot bar is through connection block, the lower end of centre pilot bar has centre pilot bar head, centre pilot bar head is pressed against on the bottom surface of connection block, buffer spring is inserted with, the end that the upper plane of connection block is put forth effort in one end, the other end puts forth effort on push rod of buffer spring in centre pilot bar; The head shell that described transmission adjusting head is other is fixed with and is pressed against adjusting portion, push rod is screwed onto and is pressed against in adjusting portion, and the lower end of push rod is stretched out and is pressed against adjusting portion and the top being in spacing roller body.

The top of described head shell is fixed with connection guide pad, the push rod of connection cylinder is bolted with guiding and regulates the body of rod, guiding regulates body of rod sleeve connecting in the through hole that guide pad has, guiding regulates on the body of rod and is bolted with setscrew nut, setscrew nut is pressed against on the end face of connection guide pad, guiding regulates the lower end of the body of rod stretch out connection guide pad and be fixed with centre pilot bar, and the upper plane of connection block is put forth effort in one end of buffer spring, the other end is put forth effort on guiding and regulated on the bottom face of the body of rod, the lateral wall of described head shell is fixed with pressure pad and promotes cylinder, the push rod that pressure pad promotes cylinder is fixed with pushing block, in the vertical groove that pushing block sleeve has on the sidewall of head shell, the edge madial wall of head shell is fixed with pressure pad guide part, pressure pad guide post sleeve is in pressure pad guide part, pressure pad guide post is fixed on the pushing block that is in head shell, the lower end of pressure pad guide post stretch out pushing block and sleeve in pressure pad fixed mount, the lower end of pressure pad guide post is fixed with the spacing head of pressure pad, the spacing head of pressure pad is pressed against on the bottom surface of pressure pad fixed mount, pressure pad guide post upper sleeve has pressure pad buffer spring, pushing block is put forth effort in the upper end of pressure pad buffer spring, lower end is put forth effort on pressure pad fixed mount, the bottom of pressure pad fixed mount is fixed with bending arm, bending arm is fixed with bowl-shape pressure pad, bowl-shape pressure pad is in the below of sewing syringe needle, the middle part of bowl-shape pressure pad has sewing groove, sewing syringe needle is in directly over sewing groove, the bottom of the lateral wall of described head shell is fixed with pressure pad limited block, pressure pad limited block is fixed with pressure pad limited post, and the top of pressure pad limited post is in immediately below pressure pad fixed mount.

Outstanding effect of the present utility model is:

Compared with prior art, it is by fixed die grillage in the main frame on working plate, and the X-axis carriage that main frame is provided with by frame and Y-axis carriage drive and realize horizontal and vertical movement, without the need to being moved by head, it is easy to make, mobile accuracy is high, easy to make, and its adopts and rotatably compresses cylinder and be clamped on template frame by template, multiple template frame is fixed on main frame simultaneously, the movement of template frame is realized by the movement of main frame, it can be processed multiple template by the multiple heads on template machine, thus greatly improve the efficiency of its processing.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the structural representation of main frame of the present utility model and template frame;

Fig. 3 is the partial sectional view of template frame of the present utility model;

Fig. 4 is connecting rod of the present utility model and the partial structurtes schematic diagram between contiguous block and point contiguous block;

Fig. 5 is the partial structurtes schematic diagram revolving the briquetting of compression cylinder of the present utility model;

Fig. 6 is the partial structurtes schematic diagram of X-axis carriage of the present utility model and Y-axis carriage;

Fig. 7 is the easy structure schematic diagram between Y-axis carriage of the present utility model and slip cell body;

The partial structurtes schematic diagram that Fig. 8 is main frame of the present utility model and vertically moves between plate;

Fig. 9 is the partial structurtes schematic diagram between main frame of the present utility model and lateral movement plate;

Figure 10 is the partial elevation view of head of the present utility model;

Figure 11 is the partial structurtes schematic diagram of head of the present utility model;

Figure 12 is the partial structurtes schematic diagram between counter drive shaft of the present utility model and transmission adjusting head;

Figure 13 is the partial structurtes schematic diagram of final drive shaft of the present utility model and its all parts;

Figure 14 be Figure 13 driving mechanism is installed change angled arrangement schematic diagram;

Figure 15 is the partial structurtes schematic diagram between head of the present utility model and main drive motor;

Figure 16 is the partial structurtes schematic diagram between the final drive shaft of head of the present utility model and counter drive shaft.

Detailed description of the invention:

Embodiment, see as shown in Fig. 1 to Figure 16, a kind of Full-automatic multi-head template sewing machine, comprise main frame 10 and frame 200, the middle part of frame 200 is fixed with girder 400, girder 400 is fixed with multiple head 500, frame 200 is also fixed with working plate 300, girder 400 is at the middle part of working plate 300, described girder 400 is fixed with main drive motor 600, the output shaft of main drive motor 600 is fixed with total transmission main shaft 700 by shaft coupling, the final drive shaft 51 that head 500 is provided with stretches out girder 400 and is fixed with bevel gear 401, total transmission main shaft 700 is hinged in the support housing 402 that girder 400 is fixed with, the partial fixing that total transmission main shaft 700 is in support housing 402 has drive bevel gear 403, bevel gear 401 is meshed with drive bevel gear 403,

Described working plate 300 is placed with main frame 10, described main frame 10 is rectangular box, the middle part of main frame 10 has rectangle and places cell body 11, four edge that rectangle places cell body 11 are all fixed with connecting rod 12, multiple template frame 20 is placed on rectangle and places in cell body 11, the edge of template frame 20 is fixed with multiple contiguous block 21, and a point contiguous block 22 is bolted to connection on the contiguous block 21 of correspondence, and connecting rod 12 is clamped between corresponding contiguous block 21 and point contiguous block 22;

The middle part of described template frame 20 has template and places groove 23, the template frame 20 that template places the side of groove 23 is fixed with and multiplely rotatably compresses cylinder 24, the push rod rotatably compressing cylinder 24 is fixed with briquetting 25, template 100 is placed on template and places in groove 23, and briquetting 25 is pressed against in the upper plane of template 100.

Described frame 200 is fixed with multiple X-axis carriage 30 and multiple Y-axis carriage 40, frame 200 is fixed with X-axis dual output drive motors 201 and Y-axis dual output drive motors 202, the double output shaft of X-axis dual output drive motors 201 drives the synchronous operation of all X-axis carriages 30, in the X-axis sliding tray 301 that X-axis sliding shoe 31 sleeve of all X-axis carriages 30 has on working plate 300, the double output shaft of Y-axis dual output drive motors 202 drives the synchronous operation of all Y-axis carriages 30, in the Y-axis sliding tray 302 that Y-axis sliding shoe 41 sleeve of all Y-axis carriages 40 has on working plate 300,

Described all X-axis carriages 30 be arranged in parallel and arrange in a row, vertically moving plate 32 is fixed on X-axis sliding shoe 31, vertically move plate 32 above working plate 300, lateral movement plate 42 is fixed on Y-axis sliding shoe 41, the longitudinal side wall of main frame 10 is fixed with longitudinal contiguous block 13, slideable being arranged on of longitudinal contiguous block 13 vertically moves in plate 32, the lateral sidewalls of main frame 10 is fixed with lateral connection block 14, what lateral connection block 14 was slideable is arranged in lateral movement plate 42.

Described X-axis carriage 30 and Y-axis carriage 40 include sliding floor 33, the two ends of sliding floor 33 are all hinged with drive 34, belt conveyor 35 is stretched on two drives 34, the upper plane of sliding floor 33 is fixed with sliding rail 36, the bottom of belt conveyor 35 is through in the groove 37 sliding rail 36 and sliding floor 33, X-axis sliding shoe 31 or Y-axis sliding shoe 41 are fixed in the top of belt conveyor 35, the bottom surface of X-axis sliding shoe 31 or Y-axis sliding shoe 41 has sliding recess 38, and sliding rail 36 sleeve is in sliding recess 38.

The Y-axis sliding shoe 41 of described Y-axis carriage 40 is also fixed with spacing connecting rod 43, in the chute body that spacing connecting rod 43 sleeve has in the slip cell body 44 corresponding with the sliding rail 36 of Y-axis carriage 40, slip cell body 44 is fixed in frame 200; Described spacing connecting rod 43 is fixed with limited block 45, and limited block 45 is corresponding with the Y-axis limited block 46 that corresponding Y-axis sliding shoe 41 is fixed with, and two longitudinal side walls of main frame 10 are clamped between limited block 45 and Y-axis limited block 46.

Described Y-axis carriage 40 is in the lower rear of working plate 300, and slip cell body 44 is in the lower front of working plate 300; Described longitudinal contiguous block 13 is fixed with multiple pulley 131, and pulley 131 sleeve is vertically moving in the mobile chute 321 that plate 32 has; Described lateral connection block 14 also has multiple pulley 131, in the mobile chute 421 that pulley 131 sleeve has in transverse shifting version 42; Described X-axis dual output drive motors 201 is connected with corresponding drive 34 by connection for transmission axle with the double output shaft of Y-axis dual output drive motors 202.

The side of described contiguous block 21 has arc groove 211, point contiguous block 22 has point arc groove 221 corresponding with the arc groove 211 of contiguous block 21, in the clamp groove that connecting rod 12 sleeve holding are formed between the arc groove 211 and point arc groove 221 of correspondence.

Described template frame 20 comprises base plate, the top of base plate and two sides are fixed with three limiting plates 26, for template places groove 23 above base plate between three limiting plates 26, three limiting plates 26 are fixed with rotating down pressing cylinder link 261, rotating down pressing cylinder link 261 are fixed with and rotatably compress cylinder 24; Described briquetting 25 is arc block, and what the push rod rotatably compressing cylinder 24 was fixed on briquetting 25 departs from curved portions place; The end winding support of the limiting plate 26 of the left and right sides of described template frame 20 has contiguous block 21.

Described head 500 structure is, the squab panel of head shell 50 there is final drive shaft 51 by bearing hinge connection, final drive shaft 51 is fixed with eccentric wheel 512, eccentric wheel 512 is hinged with cursor 513, the other end of cursor 513 is hinged in sewing vertical axes 52, head shell 50 is fixed with the vertical bar 53 of sewing, in the pilot hole that sewing cover 54 sleeve has in the rear end of the vertical bar 53 of sewing, the lower end of sewing vertical axes 52 is stretched out pilot hole and is fixed with sewing syringe needle 521;

The bottom plate upper sleeve of described head shell 50 has expansion link 55, the lower end of expansion link 55 is stretched out the bottom of head shell 50 and is fixed with threading protection portion 551, sewing syringe needle 521 sleeve is in the central through hole of threading protection portion 551, and the upper end of expansion link 55 is in head shell 50;

The middle part of described final drive shaft 51 is hinged with capacity eccentric bearing 514, capacity eccentric bearing 514 is hinged with ring body, ring body is fixed with linking arm 515, linking arm 515 is hinged with grip block 516, grip block 516 is fixed with counter drive shaft 56, in the intermediate membrane 501 that the middle part that counter drive shaft 56 is hinged on head shell 50 has, the front end of counter drive shaft 56 is stretched out intermediate membrane 501 and is fixed with transmission adjusting head 561, transmission adjusting head 561 has mounting hole 562, transmission adjusting head 561 is bolted to connection the first vertical bar 563, the lower end of the first vertical bar 563 is hinged with the second transverse bar 564, one end of second transverse bar 564 is hinged with the 3rd vertical bar 565, the lower end of the 3rd vertical bar 565 is fixed on the upper end of expansion link 55, the head shell 50 that transmission adjusting head 561 is other is bolted with push rod 57, the lower end of push rod 57 is on spacing roller body 566 that the other end of the second transverse bar 564 is fixed with.

The upper end sleeve of described expansion link 55 in connection block 58 and the lower end of stretching out connection block 58 and the 3rd vertical bar 565 fix, the top of head shell 50 is fixed with and connects cylinder 59, connect the push rod of cylinder 59 straight down and be fixed with centre pilot bar 591, the lower end of centre pilot bar 591 is through connection block 58, the lower end of centre pilot bar 591 has centre pilot bar head 592, centre pilot bar head 592 is pressed against on the bottom surface of connection block 58, buffer spring 593 is inserted with in centre pilot bar 591, the upper plane of connection block 58 is put forth effort in one end of buffer spring 593, the other end puts forth effort on the end of push rod, the head shell 50 that described transmission adjusting head 561 is other is fixed with and is pressed against adjusting portion 571, push rod 57 is screwed onto and is pressed against in adjusting portion 571, and the lower end of push rod 57 is stretched out and is pressed against adjusting portion 571 and the top being in spacing roller body 566.

The top of described head shell 50 is fixed with and connects guide pad 594, the push rod of connection cylinder 59 is bolted with guiding and regulates the body of rod 595, guiding regulates the body of rod 595 sleeve connecting in the through hole that guide pad 594 has, guiding regulates on the body of rod 595 and is bolted with setscrew nut 596, setscrew nut 596 is pressed against on the end face of connection guide pad 594, guiding regulates the lower end of the body of rod 595 stretch out connection guide pad 594 and be fixed with centre pilot bar 591, the upper plane of connection block 58 is put forth effort in one end of buffer spring 593, the other end is put forth effort on guiding and is regulated on the bottom face of the body of rod 595, the lateral wall of described head shell 50 is fixed with pressure pad and promotes cylinder 60, the push rod that pressure pad promotes cylinder 60 is fixed with pushing block 61, in the vertical groove 502 that pushing block 61 sleeve has on the sidewall of head shell 50, the edge madial wall of head shell 50 is fixed with pressure pad guide part 503, pressure pad guide post 62 sleeve is in pressure pad guide part 503, pressure pad guide post 62 is fixed on the pushing block 61 that is in head shell 50, the lower end of pressure pad guide post 62 stretch out pushing block 61 and sleeve in pressure pad fixed mount 63, the lower end of pressure pad guide post 62 is fixed with the spacing head of pressure pad, the spacing head of pressure pad is pressed against on the bottom surface of pressure pad fixed mount 63, pressure pad guide post 62 upper sleeve has pressure pad buffer spring 64, pushing block 61 is put forth effort in the upper end of pressure pad buffer spring 64, lower end is put forth effort on pressure pad fixed mount 63, the bottom of pressure pad fixed mount 63 is fixed with bending arm 65, bending arm 65 is fixed with bowl-shape pressure pad 66, bowl-shape pressure pad 66 is in the below of sewing syringe needle 521, the middle part of bowl-shape pressure pad 66 has sewing groove, sewing syringe needle 521 is in directly over sewing groove, the bottom of the lateral wall of described head shell 50 is fixed with pressure pad limited block 67, pressure pad limited block 67 is fixed with pressure pad limited post 66, and the top of pressure pad limited post 66 is in immediately below pressure pad fixed mount 63.

Operation principle: to be clamped and connected bar 12 by contiguous block 21 and a point contiguous block 22, template frame 20 is realized fixing, then template 100 being placed on template places in groove 23, then the push rod by rotatably compressing cylinder 24 rotates to stretch out forward simultaneously and template 100 is pressed against template and places on cloth that the bottom surface of groove 23 is placed with, then can process.

Then the drive 34 of corresponding X-axis carriage 30 and multiple Y-axis carriage 40 is driven to rotate respectively by X-axis dual output drive motors 201 and Y-axis dual output drive motors 202, thus belt conveyor 35 is rotated, make to be fixed on X-axis sliding shoe 31 on belt conveyor 35 or Y-axis sliding shoe 41 carries out transverse shifting and vertically moves, main frame 10 is made and plate 32 can be vertically moved to realize horizontal and vertical movement along lateral movement plate 42, thus meet processing needs, its mobile accuracy is high, effective.

In the present embodiment, X-axis dual output drive motors 201 and Y-axis dual output drive motors 202 are all made up of fixed electrical machinery on double output shaft reduction box, drive the double output shaft of reduction box to rotate by the output shaft of motor.

And the push rod promotion of cylinder 60 is promoted by pressure pad, bowl-shape pressure pad 66 is made to be close on the cloth of below, then the push rod by connecting cylinder 59 promotes downwards, expansion link 55 is declined, threading protection portion 551 is declined, now, also the 3rd vertical bar 565 is declined, then, main drive motor 600 runs and drives the final drive shaft 51 of all heads 500 to rotate, realize eccentric wheel 512 to rotate, realize moving up and down of sewing vertical axes 52, thus make sewing syringe needle 521 realize pulling the cloth below to template to sew up and down, and in this runs, by final drive shaft 51 transmission, counter drive shaft 56 is made to carry out carrying out back rotation by linking arm 515, thus make the first vertical bar 563, second transverse bar 564 and the 3rd vertical bar 565 realize and the synchronous vertical tremor of sewing syringe needle 521, and carry out certain buffering by buffer spring 593.

Finally; above embodiment is only for illustration of the utility model; and be not limitation of the utility model; the those of ordinary skill of relevant technical field; when not departing from spirit and scope of the present utility model; can also make a variety of changes and modification, therefore all equivalent technical schemes also belong to category of the present utility model, and scope of patent protection of the present utility model should be defined by the claims.

Claims (10)

1. a Full-automatic multi-head template sewing machine, comprise main frame (10) and frame (200), the middle part of frame (200) is fixed with girder (400), girder (400) is fixed with multiple head (500), frame (200) is also fixed with working plate (300), girder (400) is at the middle part of working plate (300), it is characterized in that: described girder (400) is fixed with main drive motor (600), the output shaft of main drive motor (600) is fixed with total transmission main shaft (700) by shaft coupling, the final drive shaft (51) that head (500) is provided with stretches out girder (400) and is fixed with bevel gear (401), total transmission main shaft (700) is hinged in the support housing (402) that girder (400) is fixed with, the partial fixing that total transmission main shaft (700) is in support housing (402) has drive bevel gear (403), bevel gear (401) is meshed with drive bevel gear (403),

Described working plate (300) is placed with main frame (10), described main frame (10) is rectangular box, the middle part of main frame (10) has rectangle and places cell body (11), four edge that rectangle places cell body (11) are all fixed with connecting rod (12), multiple template frame (20) is placed on rectangle and places in cell body (11), the edge of template frame (20) is fixed with multiple contiguous block (21), contiguous block (22) is divided to be bolted to connection on the contiguous block (21) of correspondence, connecting rod (12) is clamped between corresponding contiguous block (21) and point contiguous block (22),

The middle part of described template frame (20) has template and places groove (23), the template frame (20) that template places the side of groove (23) is fixed with and multiplely rotatably compresses cylinder (24), the push rod rotatably compressing cylinder (24) is fixed with briquetting (25), template (100) is placed on template and places in groove (23), and briquetting (25) is pressed against in the upper plane of template (100).

2. a kind of Full-automatic multi-head template sewing machine according to claim 1, it is characterized in that: described frame (200) is fixed with multiple X-axis carriage (30) and multiple Y-axis carriage (40), frame (200) is fixed with X-axis dual output drive motors (201) and Y-axis dual output drive motors (202), the double output shaft of X-axis dual output drive motors (201) drives the synchronous operation of all X-axis carriages (30), in the X-axis sliding tray (301) that X-axis sliding shoe (31) sleeve of all X-axis carriages (30) has on working plate (300), the double output shaft of Y-axis dual output drive motors (202) drives the synchronous operation of all Y-axis carriages (30), in the Y-axis sliding tray (302) that Y-axis sliding shoe (41) sleeve of all Y-axis carriages (40) has on working plate (300),

Described all X-axis carriages (30) be arranged in parallel and arrange in a row, vertically moving plate (32) is fixed on X-axis sliding shoe (31), vertically move the top of plate (32) in working plate (300), lateral movement plate (42) is fixed on Y-axis sliding shoe (41), the longitudinal side wall of main frame (10) is fixed with longitudinal contiguous block (13), longitudinal contiguous block (13) slideable being arranged on vertically moves in plate (32), the lateral sidewalls of main frame (10) is fixed with lateral connection block (14), what lateral connection block (14) was slideable is arranged in lateral movement plate (42).

3. a kind of Full-automatic multi-head template sewing machine according to claim 2, it is characterized in that: described X-axis carriage (30) and Y-axis carriage (40) include sliding floor (33), the two ends of sliding floor (33) are all hinged with drive (34), belt conveyor (35) is stretched on two drives (34), the upper plane of sliding floor (33) is fixed with sliding rail (36), the bottom of belt conveyor (35) is through in the groove (37) sliding rail (36) and sliding floor (33), X-axis sliding shoe (31) or Y-axis sliding shoe (41) are fixed in the top of belt conveyor (35), the bottom surface of X-axis sliding shoe (31) or Y-axis sliding shoe (41) has sliding recess (38), sliding rail (36) sleeve is in sliding recess (38).

4. a kind of Full-automatic multi-head template sewing machine according to claim 3, it is characterized in that: the Y-axis sliding shoe (41) of described Y-axis carriage (40) is also fixed with spacing connecting rod (43), in the chute body that spacing connecting rod (43) sleeve has in the slip cell body (44) corresponding with the sliding rail (36) of Y-axis carriage (40), slip cell body (44) is fixed in frame (200); Described spacing connecting rod (43) is fixed with limited block (45), limited block (45) is corresponding with the Y-axis limited block (46) that corresponding Y-axis sliding shoe (41) is fixed with, and two longitudinal side walls of main frame (10) are clamped between limited block (45) and Y-axis limited block (46).

5. a kind of Full-automatic multi-head template sewing machine according to claim 4, it is characterized in that: described Y-axis carriage (40) is in the lower rear of working plate (300), slip cell body (44) is in the lower front of working plate (300); Described longitudinal contiguous block (13) is fixed with multiple pulley (131), and pulley (131) sleeve is vertically moving in the mobile chute (321) that plate (32) has; Described lateral connection block (14) also has multiple pulley (131), in the mobile chute (421) that pulley (131) sleeve has in transverse shifting version (42); Described X-axis dual output drive motors (201) is connected with corresponding drive (34) by connection for transmission axle with the double output shaft of Y-axis dual output drive motors (202).

6. a kind of Full-automatic multi-head template sewing machine according to claim 1, it is characterized in that: the side of described contiguous block (21) has arc groove (211), point contiguous block (22) has point arc groove (221) corresponding with the arc groove of contiguous block (21) (211), connecting rod (12) sleeve in the clamp groove of holding formation between the arc groove (211) and point arc groove (221) of correspondence.

7. a kind of Full-automatic multi-head template sewing machine according to claim 6, it is characterized in that: described template frame (20) comprises base plate, the top of base plate and two sides are fixed with three limiting plates (26), for template places groove (23) above base plate between three limiting plates (26), three limiting plates (26) are fixed with rotating down pressing cylinder link (261), rotating down pressing cylinder link (261) are fixed with and rotatably compress cylinder (24); Described briquetting (25) is arc block, and what the push rod rotatably compressing cylinder (24) was fixed on briquetting (25) departs from curved portions place; The end winding support of the limiting plate (26) of the left and right sides of described template frame (20) has contiguous block (21).

8. a kind of Full-automatic multi-head template sewing machine according to claim 1, it is characterized in that: described head (500) structure is, the squab panel of head shell (50) there is final drive shaft (51) by bearing hinge connection, final drive shaft (51) is fixed with eccentric wheel (512), eccentric wheel (512) is hinged with cursor (513), the other end of cursor (513) is hinged in sewing vertical axes (52), head shell (50) is fixed with the vertical bar of sewing (53), sewing cover (54) sleeve is in the pilot hole that has of rear end of the vertical bar of sewing (53), the lower end of sewing vertical axes (52) is stretched out pilot hole and is fixed with sewing syringe needle (521),

The bottom plate upper sleeve of described head shell (50) has expansion link (55), the lower end of expansion link (55) is stretched out the bottom of head shell (50) and is fixed with threading protection portion (551), sewing syringe needle (521) sleeve is in the central through hole of threading protection portion (551), and the upper end of expansion link (55) is in head shell (50);

The middle part of described final drive shaft (51) is hinged with capacity eccentric bearing (514), capacity eccentric bearing (514) is hinged with linking arm (515), linking arm (515) is hinged with grip block (516), grip block (516) is fixed with counter drive shaft (56), in the intermediate membrane (501) that the middle part that counter drive shaft (56) is hinged on head shell (50) has, the front end of counter drive shaft (56) is stretched out intermediate membrane (501) and is fixed with transmission adjusting head (561), transmission adjusting head (561) has mounting hole (562), transmission adjusting head (561) is bolted to connection the first vertical bar (563), the lower end of the first vertical bar (563) is hinged with the second transverse bar (564), one end of second transverse bar (564) is hinged with the 3rd vertical bar (565), the lower end of the 3rd vertical bar (565) is fixed on the upper end of expansion link (55), the head shell (50) that transmission adjusting head (561) is other is bolted with push rod (57), the lower end of push rod (57) is on spacing roller body (566) that the other end of the second transverse bar (564) is fixed with.

9. a kind of Full-automatic multi-head template sewing machine according to claim 8, it is characterized in that: the upper end sleeve of described expansion link (55) is gone up in connection block (58) and stretched out connection block (58) and fixes with the lower end of the 3rd vertical bar (565), the top of head shell (50) is fixed with and connects cylinder (59), connect the push rod of cylinder (59) straight down and be fixed with centre pilot bar (591), the lower end of centre pilot bar (591) is through connection block (58), the lower end of centre pilot bar (591) has centre pilot bar head (592), centre pilot bar head (592) is pressed against on the bottom surface of connection block (58), buffer spring (593) is inserted with in centre pilot bar (591), the upper plane of connection block (58) is put forth effort in one end of buffer spring (593), the other end puts forth effort on the end of push rod, the head shell (50) that described transmission adjusting head (561) is other is fixed with and is pressed against adjusting portion (571), push rod (57) is screwed onto and is pressed against in adjusting portion (571), and the lower end of push rod (57) is stretched out and is pressed against adjusting portion (571) and the top being in spacing roller body (566).

10. a kind of Full-automatic multi-head template sewing machine according to claim 9, it is characterized in that: the top of described head shell (50) is fixed with and connects guide pad (594), the push rod of connection cylinder (59) is bolted with guiding and regulates the body of rod (595), guiding regulates the body of rod (595) sleeve connecting in the through hole that guide pad (594) has, guiding regulates on the body of rod (595) and is bolted with setscrew nut (596), setscrew nut (596) is pressed against on the end face of connection guide pad (594), guiding regulates the lower end of the body of rod (595) stretch out connection guide pad (594) and be fixed with centre pilot bar (591), the upper plane of connection block (58) is put forth effort in one end of buffer spring (593), the other end is put forth effort on guiding and is regulated on the bottom face of the body of rod (595), the lateral wall of described head shell (50) is fixed with pressure pad and promotes cylinder (60), the push rod that pressure pad promotes cylinder (60) is fixed with pushing block (61), in the vertical groove (502) that pushing block (61) sleeve has on the sidewall of head shell (50), the edge madial wall of head shell (50) is fixed with pressure pad guide part (503), pressure pad guide post (62) sleeve is in pressure pad guide part (503), pressure pad guide post (62) is fixed on the pushing block (61) that is in head shell (50), the lower end of pressure pad guide post (62) stretch out pushing block (61) and sleeve in pressure pad fixed mount (63), the lower end of pressure pad guide post (62) is fixed with the spacing head of pressure pad, the spacing head of pressure pad is pressed against on the bottom surface of pressure pad fixed mount (63), pressure pad guide post (62) upper sleeve has pressure pad buffer spring (64), pushing block (61) is put forth effort in the upper end of pressure pad buffer spring (64), lower end is put forth effort on pressure pad fixed mount (63), the bottom of pressure pad fixed mount (63) is fixed with bending arm (65), bending arm (65) is fixed with bowl-shape pressure pad (66), bowl-shape pressure pad (66) is in the below of sewing syringe needle (521), the middle part of bowl-shape pressure pad (66) has sewing groove, sewing syringe needle (521) is in directly over sewing groove, the bottom of the lateral wall of described head shell (50) is fixed with pressure pad limited block (67), pressure pad limited block (67) is fixed with pressure pad limited post (66), the top of pressure pad limited post (66) is in immediately below pressure pad fixed mount (63).