CN204690272U - A kind of full-automatic template sewing machine - Google Patents

Abstract

The utility model relates to sewing machine, particularly full-automatic template sewing machine.The full-automatic template sewing machine of one of the present utility model, head (43) is fixed in frame; Y-direction transmission mechanism and X are located at platen (44) below to transmission mechanism, X to transmission mechanism only vertically and be installed on Y-direction transmission mechanism actively, template (20) presses down by hold down gag, and the guide rail of template (20) (19) is coordinated to the Timing Belt (161,162) of transmission mechanism with X; Control centre (21) controls hold down gag by instruction, X runs to transmission mechanism and Y-direction transmission mechanism.The utility model has handling ease, be convenient to head of sewing machine change and maintenance and Y-direction and X to the good advantage of drive coordination.

Description

A kind of full-automatic template sewing machine

Technical field

The utility model relates to mechanical field, especially sewing machine, particularly full-automatic template sewing machine.

Background technology

Full-automatic template sewing machine common in the market, has two kinds of modes substantially, and a kind of X, Y-direction transmission mechanism are all placed on above platen, and another kind is X, Y-direction transmission mechanism is placed on below platen.

X, Y-direction transmission mechanism are placed on the full-automatic template sewing machine on platen, and the transmission mechanism due to it is placed on platen, with platen without any connection, so Y-direction more forward, its rigidity is poorer, and stability is also poorer, and X limits to stroke by crossbeam, stroke is little, and cost is high.

Another kind, but the X of prior art, Y-direction transmission mechanism are all placed on the full-automatic template sewing machine below platen, when head maintain and replace, there is dismounting trouble, change the shortcomings such as inconvenience; And X exists unstable situation to transmission, when the fabric in template is heavier or the running resistance of template is larger, the path of seam is easily caused to misplace and cause seam product to be scrapped.

As shown in Figure 1, Figure 2, Figure 3, Figure 4, in prior art, X is connected with support 43 to transmission mechanism 83 by splined shaft 81, and Y-direction transmission mechanism 84 is connected with support 43 by 4 cylindrical guides 80.Sewing device 41 and cutting facility 42 are fixed with support 43 one.So prior art has very high requirement to support 80 machining accuracy, as long as and have some assembling not in place, X will be caused to have some setbacks to transmission, cause template running resistance to increase.During work, Y-direction motor in synchrony ground drives two Y-direction Timing Belts 53, and Y-direction Timing Belt 53 drives two gear-boxes in left and right to slide on four cylindrical guides 80, realizes Y-direction motion.X drives two splined shafts 81 to motor in synchrony, and splined shaft 81 drives four travelling gears 85 to rotate.The guide rail of template contacts with four travelling gears 85 and coordinates, and when travelling gear 95 rotates, guide rail is also along with the rotation of travelling gear 95 is along X to doing rectilinear motion, and template is contained on guide rail, template also and then together along X to moving, achieve X to transmission.But because sewing device 41, cutting facility 42 exist direct annexation with support 43, as long as there is any one local loosening, precision all can be deteriorated, and even again will correct the precision of head 40, cutting facility 42 and support 43, very high to mechanician's technical requirement, repair and bother very much.Secondly, because head, cutting facility follow support to be one, the right and left is separated by the cutting facility of centre, and two, left and right gear-box can not be linked to be entirety, Y-direction only keeps left right two and synchronously brings guarantee both sides synchronizing moving, there is nonsynchronous phenomenon when whipping anxious constantly running.

Utility model content

Goal of the invention of the present utility model is to provide a kind of handling ease, be convenient to head of sewing machine change and maintenance and Y-direction and X to the good full-automatic template sewing machine of drive coordination.

Goal of the invention of the present utility model is achieved in that

A kind of full-automatic template sewing machine, comprises head 40, frame 43, hold down gag, X to transmission mechanism, Y-direction transmission mechanism, control centre 21 and drive system, template 20 and platen 44.Be provided with opening in the middle part of described platen 44, described platen 44 is fixed in described frame.Described Y-direction transmission mechanism and described X are positioned at below platen 44 to transmission mechanism, and described Y-direction transmission mechanism is fixed in described frame 43, described X is not directly connected with described frame 43 to transmission mechanism, only vertically and be installed in actively on described Y-direction transmission mechanism.Described head comprises sewing device 41, cutting facility and support 46; Sewing device 41 and cutting facility and support 46 are one overall; Described head 40 is fixed in frame 43, and the opening that the sewing device 41 of described head 40 passes described platen 44 is positioned at above described platen 44.Described drive system is described hold down gag, X provides power to transmission mechanism and Y-direction transmission mechanism and control centre 21.Described control centre 21 controls hold down gag by instruction, X runs to transmission mechanism and Y-direction transmission mechanism.When described hold down gag receives instruction by described template 20 to pressing down, thus the guide rail 19 of described template 20 and described X are coordinated to the Timing Belt first 161 of transmission mechanism, Timing Belt second 162.Described template 20 at described hold down gag and X between the Timing Belt first 161, Timing Belt second 162 of transmission mechanism.By the operation of Y-direction transmission mechanism, X is driven to do Y-direction motion to transmission mechanism and the described template that coordinates with it; The template coordinated with it is driven to do X motion by X to the operation of transmission mechanism.

Wherein, described Y-direction transmission mechanism comprises, article two, be respectively in described head both sides and be fixed on the Y-direction guide rail 50 in frame, described Y-direction guide rail 50 is provided with sliding seat 51, described sliding seat 51 is connected by L shape connector 52 and Y-direction Timing Belt 53, Y-direction Timing Belt 53 drives operation by Y-direction motor by power transmission shaft 71, and described X is connected to the sliding seat 51 of transmission mechanism and Y-direction transmission mechanism.

Further, described X comprises a crossbeam group 1 to transmission mechanism, described crossbeam group 1 is composed of a fixed connection by before and after crossbeam first 111 and crossbeam second 112, be bent downwardly in the middle part of crossbeam group 1 and form depression 113, namely the middle part of described crossbeam first 111 and described crossbeam second 112 is bent downwardly and forms depression 113, and described depression 113 is for settling described head 40; Sewing device 41, cutting facility 42 and base 46 is an entirety.

Further, described X to transmission mechanism also comprise be arranged in described crossbeam group bottom and left and right arrange axle first 30 and axle second 31, in described axle first 30, fixed cover is provided with drive a12 and drive b13, and described axle first 30 is fixed in crossbeam group 1 by bearing; In described axle second 31, fixed cover is provided with drive A15 and drive B16, and described axle second 31 is fixed in crossbeam group 1 by bearing; In a drive b13 in described axle first 30 and described axle second 31, a drive A15 is by Timing Belt 14 connection for transmission; Another drive a12 in described axle first 30 and be positioned at the driven pulley first 171 in left side on described crossbeam group 1 top and driven pulley second 172 by Timing Belt first 161 transmission, another drive B16 in described axle second 31 and be positioned at the driven pulley the third 173 on right side on described crossbeam group 1 top and driven pulley fourth 174 by Timing Belt second 162 transmission, described Timing Belt first 161 and described Timing Belt second 162 coordinate with the guide rail 19 of described template 20.

Hold down gag comprises clamping frame 8, cylinder 5, connector 6 and guide pillar pull bar 7, and wherein cylinder 5 is connected with clamping frame 8 with guide pillar pull bar 7 by connector 6.Can be that clamp-close type is flexibly connected between connector 6 with guide pillar pull bar 7, but be not limited thereto.Clamping frame 8 is provided with locating wheel 9.When clamping frame 8 is to when pressing down, on clamping frame 8, locating wheel 9 coordinates with the guide rail of template 20 and locates.When locating wheel 9 is convex, the groove fit that locating wheel 9 is provided with the guide rail upper end of template 20; But when locating wheel 9 is spill locating wheel, the convex shoulder that locating wheel 9 is provided with the guide rail upper end of template 20, spill locating wheel 9 coordinates with the convex shoulder of template 20.

Drive system comprises Y-direction driving mechanism and X to driving mechanism.

X comprises control centre 21, electromagnetic valve (air valve) 22, inlet channel 23 and motor 10 to driving mechanism.Driving mechanism on the one hand effect be by the clamping frame 8 of hold down gag to pressing down, clamping frame 8 is pressed on downwards in template 20, thus the guide rail 19 of template 20 is closely cooperated with the Timing Belt first 161 of transmission mechanism and Timing Belt second 162; Effect is operated by driven by motor drive a12 on the other hand.

Control centre 21 is by opening and closing to electromagnetic valve (air valve) 22 instruction Controlling solenoid valve (or air valve) 22.When control centre 21 provides after to gas instruction, electromagnetic valve (air valve) 22 is opened, inlet channel 23 air inlet, pulls down follower link 6 thus drive to coordinate fixing guide pillar pull bar 7 to move downward with connector 6 after cylinder 5 air inlet.Wherein, guide pillar pull bar 7 coordinate with connector 6 fixing after successively through fairlead fixture 2 and guide rail backup plate 3, the other end of guide pillar pull bar 7 is fixedly connected with clamping frame 8.Fairlead fixture 2 and guide rail backup plate 3 are fixed and crossbeam group 1 upper end, and template 20 is placed on guide rail backup plate 3.Guide pillar pull bar 7 pulls down clamping frame 8, and clamping frame 8 drives four locating wheels 9 to be pressed on the guide rail 19 of template 20.Start button pressed by the guidance panel of the heart 21 in the controlling, programme-control control centre 21 control X to motor 10 rotate, motor 10 drive motor Timing Belt 11 runs, and motor synchronous belt 11 coordinates with drive a12, and motor synchronous belt 11 runs thus drives drive a12 to rotate.

Y-direction driving mechanism 70 comprises motor 74, synchronizing wheel A72, power transmission shaft 71, Timing Belt the third 73, control centre 21 and synchronizing wheel B77.Wherein, control centre 21 sends instruction, controls the operation of motor 74.Motor 74 runs and provides power.Motor 74 drives Timing Belt the third 73 to run, and Timing Belt the third 73 drives synchronizing wheel A72 to rotate, and rotated by synchronizing wheel A72 and drive power transmission shaft 71 to rotate, power transmission shaft 71 rotates and drives the synchronizing wheel B77 of both sides to rotate simultaneously.Synchronizing wheel B77 drives Y-direction Timing Belt 53 to run.

Further, the lower end of described guide rail 19 is installed with cingulum 192, and described cingulum 192 is for engaging with described Timing Belt first 161 and Timing Belt second 162.

The utility model has the following advantages:

1, adopt full-automatic template sewing machine of the present utility model convenient laborsaving when keeping in repair head;

2, genuine head can only be adopted when head changed by the full-automatic Sewing machines of prior art, adopt the utility model to make full-automatic template sewing machine can change the head of different manufacturers and brand.

3, the full-automatic Sewing machines maintenance head of prior art or changing machine first as need 2-3 working day, have a strong impact on manufacturing schedule, and adopt full-automatic Sewing machines of the present utility model only to need 1-2 hour when replacing head.

4, the utility model is adopted effectively to improve the synchronism of X, Y-direction transmission.

5, processing request reduces, and without the need to parts such as high-precision processing bases, saves man-hour and reduces cost.

Accompanying drawing explanation

Fig. 1 is prior art frame schematic diagram.

Fig. 2 is that prior art head and frame coordinate schematic diagram.

Fig. 3 is that prior art head and frame and X coordinate schematic diagram to transmission mechanism and Y-direction transmission mechanism.

Fig. 4 is prior art generalized section.

Fig. 5 is the utility model Y-direction transmission mechanism schematic diagram.

Fig. 6 is that the utility model X is to transmission mechanism front schematic view.

Fig. 7 is that the utility model X is to transmission mechanism schematic rear view.

Fig. 8 is schematic diagram after the utility model X coordinates to transmission mechanism with template.

Fig. 9 is A portion close-up schematic view in Fig. 8.

Figure 10 is that Fig. 9 B-B is to schematic diagram.

Figure 11 is the utility model schematic diagram-1.

Figure 12 is the utility model schematic top plan view

Figure 13 is the utility model schematic diagram-2.

In figure:

1 crossbeam group, 111 crossbeam first, 112 crossbeam second, 113 depressions,

2 fairlead fixtures, 3 guide rail backup plates, 4 motor mounting plates, 5 cylinders,

6 connectors, 61 T-slot,

7 guide pillar pull bars, 71 T connector portions,

8 clamping frames, 9 convex locating wheels, 10 motors, 11 motor synchronous belts, 12 drive a,

13 drive b, 14 Timing Belts, 15 drive A, 16 drive B, 18 take-ups,

19 guide rails, 191 grooves, 192 cingulums

20 templates, 21 control centres, 22 electromagnetic valves,

30 axle first, 31 axle second,

40 heads, 41 sewing devices, 42 cutting facilities, 43 frames, 44 platens, 45 cabinets, 46 supports,

50 Y-direction guide rails, 51 sliding seats, 52 L shape connectors, 53 Y-direction Timing Belts, 54 crossbeam connectors,

70 Y-direction driving mechanisms, 71 power transmission shafts, 72 synchronizing wheel A, 73 Timing Belt third, 74 motors, 76 bearing blocks,

77 synchronizing wheel B,

80 cylindrical guides, 81 splined shafts, 83 X to transmission mechanism, 84 Y-direction transmission mechanisms, 85 travelling gears, 86 gear-boxes,

161 Timing Belt first, 162 Timing Belt second,

171 driven pulley first, 172 driven pulley second, 173 driven pulley third, 174 driven pulley fourths.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described further, following examples are only preference, scope of the present invention is limited, on the contrary, its objective is and wish contain in the category being arranged in the scope of the claims of the present invention institute wish application of various change and tool equality.

Embodiment 1:

Below in conjunction with accompanying drawing 5 to Figure 13, the utility model is described further:

A kind of full-automatic template sewing machine, comprises frame 43, and is arranged on platen 44, Y-direction transmission mechanism and the head 40 in frame 43; And vertically and the X be installed in actively on Y-direction transmission mechanism to transmission mechanism; For template being pressed in X to the hold down gag on the Timing Belt of transmission mechanism; Crossbeam group 1 and template 20, control centre 21 and drive system.

Wherein, X is positioned at below platen 44 to transmission mechanism and Y-direction transmission mechanism, is provided with opening in the middle part of platen 44.

Head 40 comprises sewing device 41, cutting facility and support 46; The base 46 of head 40 is fixed in frame 43 through the opening of platen 44, and the sewing device 41 of head 40 is positioned at the top of 44 of platen through the opening of platen 44, and the cutting facility of head 40 is positioned at the below of platen 44.Head 40 is integral type, directly can buy the existing head product of each producer.

Crossbeam group 1 comprises two tandem crossbeam first 111 separated by a distance and crossbeam second 112.The middle part of crossbeam first 111 is bent downwardly and forms depression 113; The middle part of crossbeam second 112 is bent downwardly and forms depression 113; The middle part of crossbeam first 111 and the middle part of crossbeam second 112 form a sunk area jointly for settling head of sewing machine 40, as base 46 and cutting facility etc., be positioned at the head 40 of sunk area when changing and keep in repair, without the need to first being disassembled from head 40 by cutting facility, replacing and the maintenance of head 40 are convenient in 113 regions of caving in.

X comprises electromagnetic valve 22, inlet channel 23 and motor 10 to transmission mechanism.Control centre 21 comprises guidance panel and central processing unit.Guidance panel is provided with button, and different key can issue different instruction.Central processing unit is used for client being conveyed to different mechanisms in the instruction that guidance panel issues and making different institutions by assigned instruction operation.

Control centre 21 is by opening and closing to electromagnetic valve 22 instruction Controlling solenoid valve 22.When control centre 21 provides after to gas instruction, electromagnetic valve 22 is opened, inlet channel 23 air inlet, pulls down follower link 6 thus drive to coordinate fixing guide pillar pull bar 7 to move downward with connector 6 after cylinder 5 air inlet.Wherein, guide pillar pull bar 7 coordinate with connector 6 fixing after successively through fairlead fixture 2 and guide rail backup plate 3, the other end of guide pillar pull bar 7 is fixedly connected with clamping frame 8.Fairlead fixture 2 and guide rail backup plate 3 are fixed and crossbeam group 1 upper end, and template 20 is placed on guide rail backup plate 3.Guide pillar pull bar 7 pulls down clamping frame 8, and clamping frame 8 drives four locating wheels 9 to be pressed on the guide rail 19 of template 20.Start button pressed by the guidance panel of the heart 21 in the controlling, and control centre 21 starter motor 10 rotates, and motor 10 drive motor Timing Belt 11 runs, and motor synchronous belt 11 coordinates with drive a12, and motor synchronous belt 11 runs thus drives drive a12 to rotate.X to driving mechanism on the one hand effect be give hold down gag clamping frame 8 to the kinetic energy pressed down, clamping frame 8 is pressed on downwards in template 20, thus the guide rail 19 of template 20 is closely cooperated with the Timing Belt first 161 of transmission mechanism and Timing Belt second 162; Effect drives drive a12 to operate by motor 10 on the other hand.

X to transmission mechanism comprise be arranged in crossbeam group 1 bottom and left and right arrange axle first 30, axle second 31; Drive a12 and drive b13 is fixed in axle first 30 respectively by keyway; In the crossbeam first 111 that axle first 30 is fixed on crossbeam group 1 by bearing and crossbeam second 112, drive A15 and drive B16 fixed cover are located in axle second 31; Axle second 31 is fixed in crossbeam group 1 by bearing, by Timing Belt 14 transmission between drive b13 and drive A15; Driven pulley first 171, driven pulley second 172, driven pulley the third 173, driven pulley fourth 174 are fixed on the upper end of crossbeam group 1, driven pulley first 171, between driven pulley second 172 and drive a12 by Timing Belt first 161 transmission, driven pulley the third 173, between driven pulley fourth 174 and drive B16 by Timing Belt second 162 transmission.

In the course of work, control centre 21 is by opening and closing to electromagnetic valve 22 instruction Controlling solenoid valve 22.When control centre 21 provides after to gas instruction, electromagnetic valve 22 is opened, inlet channel 23 air inlet, pulls down follower link 6 thus drive to coordinate fixing guide pillar pull bar 7 to move downward with connector 6 after cylinder 5 air inlet.Wherein, guide pillar pull bar 7 coordinate with connector 6 fixing after successively through fairlead fixture 2 and guide rail backup plate 3, the other end of guide pillar pull bar 7 is fixedly connected with clamping frame 8.Fairlead fixture 2 and guide rail backup plate 3 are fixed and crossbeam group 1 upper end, and template 20 is placed on guide rail backup plate 3.Guide pillar pull bar 7 pulls down clamping frame 8, and clamping frame 8 drives four locating wheels 9 to be pressed on the guide rail 19 of template 20.Start button pressed by the guidance panel of the heart 21 in the controlling, control centre 21 control X to motor 10 rotate, motor 10 drive motor Timing Belt 11 runs, motor synchronous belt 11 coordinates with drive a12, motor synchronous belt 11 runs thus drives drive a12 to rotate, drive a12 rotating band moving axis first 30 is rotated, thus drives drive b13 to rotate; Drive b13 drives drive A15 to rotate by Timing Belt 14, drive A15 rotating band moving axis second 31 is rotated, axle second 31 is rotated and is driven the drive B16 be connected with it to rotate, driven pulley the third 173, between driven pulley fourth 174 and drive B16 by Timing Belt second 162 transmission, driven pulley first 171, between driven pulley second 172 and drive a12 by Timing Belt first 161 transmission.

Run by motor 10, Timing Belt first 161 and Timing Belt second 162 is driven to run, and the guide rail 19 of template 20 is pressed in X in the Timing Belt first 161 and Timing Belt second 162 of lazy-tongs by convex locating wheel 9 by clamping frame 8, by the operation of Timing Belt first 161 and Timing Belt second 162, band moving platen 20 is X to motion.

Y-direction transmission mechanism 70 comprises motor 74, synchronizing wheel A72, power transmission shaft 71, Timing Belt the third 73 and synchronizing wheel B77.Wherein, control centre 21 sends instruction, controls the operation of motor 74.Motor 74 runs and provides power.Motor 74 drives Timing Belt the third 73 to run, Timing Belt the third 73 drives synchronizing wheel A72 to rotate, being rotated by synchronizing wheel A72 drives power transmission shaft 71 to rotate, power transmission shaft 71 rotates and drives the synchronizing wheel B77 of both sides to rotate simultaneously simultaneously, the synchronizing wheel B77 of both sides drives two Y-direction Timing Belts 53 of both sides to run, the Y-direction Timing Belt 53 of both sides is fixedly connected with crossbeam group 1 respectively by Timing Belt fixture 52, and Timing Belt fixture 52 is connected and fixed by the end of crossbeam connector 54 with crossbeam group 1, crossbeam group 1 is connected by crossbeam connector 54 and sliding seat 51, sliding seat 51 is fixed on Y-direction guide rail 50 slidably.

When realizing Y-direction operation, power transmission shaft 71 is driven to rotate by motor 74, thus drive both sides Timing Belt 53 to run, Timing Belt fixture 52 is driven again by the Timing Belt 53 of both sides, drive crossbeam group 1 on Y-direction guide rail 50, do the motion of Y-direction by the crossbeam connector 54 be connected with Timing Belt fixture 52, thus realize being pressed in convex locating wheel 9 and X does Y-direction motion to the template 20 between the Timing Belt first 161 and Timing Belt second 162 of lazy-tongs.

Drive system is hold down gag, X provides power to transmission mechanism and Y-direction transmission mechanism and control centre.

Control centre controls hold down gag by instruction, X runs to transmission mechanism and Y-direction transmission mechanism.When hold down gag receives instruction by clamping frame 8 to pressing down, thus the guide rail 19 of template 20 and X are coordinated to the Timing Belt first 161 of transmission mechanism and Timing Belt second 162.Template 20 is made to be fixed on hold down gag and X between the Timing Belt first 161 and Timing Belt second 162 of transmission mechanism.By the operation of Y-direction transmission mechanism, X is driven to do Y-direction motion to transmission mechanism and the template 20 that coordinates with it; The template 20 coordinated with it is driven to do X motion by X to the operation of transmission mechanism.

Hold down gag comprises clamping frame 8, cylinder 5, connector 6 and guide pillar pull bar 7, and wherein cylinder 5 is connected with clamping frame 8 with guide pillar pull bar 7 by connector 6.The upper end of connector 6 is provided with inverted T shape groove 61, and guide pillar pull bar 7 bottom is provided with T connector portion 71, the inverted T shape groove 61 of connector 6 with the T connector portion 71 of guide pillar pull bar 7 for clamp-close type is flexibly connected.Wearing successively of guide pillar pull bar 7 connects fairlead fixture 2, guide rail backup plate 3 and clamping frame 8, and guide pillar pull bar 7 and clamping frame 8 is connected by screw.Clamping frame 8 is provided with the locating wheel 9 of 4 convexs.When clamping frame 8 is to when pressing down, the locating wheel 9 of 4 convexs coordinates with the groove 191 of guide rail 19 upper end.By the locating wheel 9 of convex and the cooperation of groove 191, template 20 angle is reformed.

Crossbeam group 1 is also provided with 3 take-ups 18, and take-up 18 is for regulating the degree of tightness of Timing Belt 14, Timing Belt first 161, Timing Belt second 162.

The lower surface of guide rail 19 also can be installed with cingulum 192.Timing Belt first 161 and Timing Belt second 162 are double cog synchronous belt, are engaged with Timing Belt first 161 and Timing Belt second 162 by the cingulum 192 on guide rail 19, by Timing Belt first 161 and Timing Belt second 162 operation jointly with moving platen 20 X to motion.Make X more stable to operation, efficiently avoid the path dislocation of seam and cause seam product to be scrapped.

Claims (7)

1. a full-automatic template sewing machine,

Comprise head (40), frame (43), hold down gag, X to transmission mechanism, Y-direction transmission mechanism, control centre (21) and drive system, template (20) and platen (44);

Described Y-direction transmission mechanism and described X are positioned at platen (44) below to transmission mechanism;

Described Y-direction transmission mechanism, described platen (44), described head (43) are fixed in frame;

Described drive system is described hold down gag, X provides power to transmission mechanism and Y-direction transmission mechanism and described control centre (21);

Described template (20) presses down by described hold down gag, and the guide rail of described template (20) (19) is coordinated to the Timing Belt (161,162) of transmission mechanism with described X;

Described control centre (21) controls hold down gag by instruction, X runs to transmission mechanism and Y-direction transmission mechanism; It is characterized in that:

Described X to transmission mechanism only vertically and be installed in actively on described Y-direction transmission mechanism.

2. a kind of full-automatic template sewing machine according to claim 1, is characterized in that:

Described Y-direction transmission mechanism comprises, article two, be respectively in described head (40) both sides and be fixed on the Y-direction guide rail (50) in frame (43), described Y-direction guide rail (50) is provided with sliding seat (51), described sliding seat (51) is connected by L shape connector (52) and Y-direction Timing Belt (53), Y-direction Timing Belt (53) drives operation by Y-direction motor by power transmission shaft (71), and described X is connected to the sliding seat (51) of transmission mechanism and Y-direction transmission mechanism.

3. a kind of full-automatic template sewing machine according to claim 1 or 2, is characterized in that:

Described X comprises a crossbeam group (1) to transmission mechanism, described crossbeam group is composed of a fixed connection by before and after two crossbeams (111,112), the middle part of described crossbeam (111,112) is bent downwardly and forms depression (113), and described depression (113) is for settling described head (40).

4. a kind of full-automatic template sewing machine according to claim 1 or 2, is characterized in that:

Described X to transmission mechanism comprise be arranged in crossbeam group (1) bottom and left and right arrange axle first (30) and axle second (31), the upper fixed cover of described axle first (30) is provided with two drives (12,13), and described axle first (30) is fixed in crossbeam group (1) by bearing;

The upper fixed cover of described axle second (31) is provided with two drives (15,16), and described axle second (31) is fixed on (1) in crossbeam group by bearing;

A drive (13) on described axle first (30) and the upper drive (15) of described axle second (31) are by Timing Belt (14) connection for transmission;

Another drive (12) on described axle first (30) and be positioned at described crossbeam group top the driven pulley (171,172) in left side by Timing Belt (161) transmission,

Another drive (16) on described axle second (31) and be positioned at described crossbeam group top the driven pulley (173,174) on right side by Timing Belt (162) transmission,

Described Timing Belt (161) and described Timing Belt (162) coordinate with the guide rail (19) of described template (20).

5. a kind of full-automatic template sewing machine according to claim 3, is characterized in that:

Described X to transmission mechanism comprise be arranged in described crossbeam group bottom and left and right arrange axle first (30) and axle second (31), the upper fixed cover of described axle first (30) is provided with two drives (12,13), and described axle first (30) is fixed in crossbeam group (1) by bearing;

The upper fixed cover of described axle second (31) is provided with two drives (15,16), and described axle second (31) is fixed in crossbeam group (1) by bearing;

A drive (13) on described axle first (30) and the upper drive (15) of described axle second (31) are by Timing Belt (14) connection for transmission;

Another drive (12) on described axle first (30) and be positioned at described crossbeam group top the driven pulley (171,172) in left side by Timing Belt (161) transmission,

Another drive (16) on described axle second (31) and be positioned at described crossbeam group top the driven pulley (173,174) on right side by Timing Belt (162) transmission,

Described Timing Belt (161) and described Timing Belt (162) coordinate with the guide rail (19) of described template (20).

6. a kind of full-automatic template sewing machine according to claim 4, is characterized in that:

The lower end of described guide rail (19) is installed with cingulum (192), and described cingulum (192) is for engaging with described Timing Belt (161,162).

7. a kind of full-automatic template sewing machine according to claim 5, is characterized in that:

The lower end of described guide rail (19) is installed with cingulum (192), and described cingulum (192) is for engaging with described Timing Belt (161,162).