CN105586722A - Novel full-automatic template sewing machine - Google Patents

Abstract

The invention belongs to the technical field of sewing machines, and particularly relates to a novel full-automatic template sewing machine. The novel full-automatic template sewing machine comprises a sewing machine head, a machine frame, a bedplate, a template, an automatic template clamping device which is installed on the bedplate and tightly presses the template, an X-direction driving direction which drives the automatic template clamping device to conduct reciprocating motion on the bedplate in the X direction and a Y-direction driving mechanism which drives the automatic template clamping device to conduct conduct reciprocating motion on the bedplate in the Y direction; the bedplate is installed at the upper end of the machine frame, and the machine head is arranged in the middle of the bedplate; a machine head base is arranged in the machine frame, and the machine head base is located at the bottom of the machine head; the machine head base comprises a track base and a thread hooking base. According to the novel full-automatic template sewing machine, the problem that the X-direction driving mechanism and the Y-direction driving mechanism of the full-automatic sewing machine are unstable can be effectively solved; by means of a lifting device of the machine head, the problem that for an existing sewing machine, the material of which the thickness exceeds the presser foot lifting height can not be processed is solved; by means of a unique presser foot lift driving device of the machine head, the problem that lifting of a presser foot lift is unstable due to the fact that the machine head is too long is solved.

Description

A kind of new automatic template sewing machine

Technical field

The invention belongs to sewing machine technique field, be specifically related to a kind of new automatic template sewing machine.

Background technology

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

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

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

Summary of the invention

The object of the invention is: provide one can solve full-automatic sewing machine X, the new automatic template sewing machine of the unsettled one of Y-direction transmission mechanism.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of new automatic template sewing machine, comprises head of sewing machine, frame, platen, template, is arranged on the automated exchanged cutter plate device that compresses described template on described platen, drives X that described automated exchanged cutter plate device moves back and forth on described platen along directions X to driving mechanism and the Y-direction driving mechanism that drives described automated exchanged cutter plate device to move back and forth on described platen along Y-direction;

Described frame upper end is provided with described platen, and described head is arranged on described platen middle part;

In described frame, be provided with machine head base, described machine head base is positioned at described head bottom;

Described machine head base comprises rail bed and hook line base, and described hook line base is arranged on described rail bed top, and described rail bed and described hook line base junction are provided with mobile cavity, and described mobile cavity moves for described Y-direction driving mechanism;

Described rail bed upper end is provided with described Y-direction driving mechanism, and described guiderail base both sides are provided with Y-axis guide rails assembling seat.

Described Y-direction driving mechanism comprises, be arranged on the Y-axis guide rail on described Y-axis guide rails assembling seat, described Y-axis guide rail is provided with slide block, between slide block on the Y-axis guide rail of described both sides, be fixedly connected with by connecting plate, described connecting plate is arranged in described mobile cavity, described connecting plate lower end is fixed with feed screw nut's assembly, described feed screw nut's assembly is socketed on screw mandrel A, described screw mandrel A is located in described rail bed, and be connected with described rail bed by bearing, described screw mandrel A bottom is provided with the motor A that drives screw mandrel to rotate, described motor A is arranged on described rail bed rear end,

Described connecting plate upper end is provided with coupling assembling, and the outer end of described coupling assembling is stretched out described panel and is fixedly connected with to driving mechanism with described X, and the corresponding described coupling assembling of described platen is provided with mobile groove, and described X is arranged on described platen top to driving mechanism.

Described X comprises mounting pipe to driving mechanism, described mounting pipe is fixedly connected with described coupling assembling, described mounting pipe front end is provided with opening, in described mounting pipe, be provided with X-axis guide rail, described X-axis guide rail is provided with slide block B, described mounting pipe two ends are provided with mounting blocks A and mounting blocks B, described mounting blocks A, between B, be provided with screw mandrel B, described screw mandrel B and described mounting blocks A, between B, connect by bearing, described screw mandrel B one end is connected with motor B, described motor B is arranged on described mounting blocks B, on described screw mandrel B, be socketed with feed screw nut's piece, described feed screw nut's piece connects described slide block B, described feed screw nut's piece front end connects described automated exchanged cutter plate device, between described automated exchanged cutter plate device and described mounting pipe, be provided with covering plate.

Described rail bed and hook line base are formed in one.

Described rail bed and described hook line base middle part hollow.

Described hook line base middle part is provided with median septum, and described median septum front side is provided with shoe cream room, and described shoe cream room one place is provided with in-line, and another place is provided with return line, and described in-line is connected with the oil pump of frame downside respectively with return line.

Described head comprises the head of front end and the fuselage of rear end, described head adopts split setting, between described head and described fuselage, be provided with elevating mechanism, the main shaft of described head inside is separated into forward spindle and rear main shaft, and described forward and backward main shaft connects by universal joint.

Described elevating mechanism comprises the fixed head that is arranged on described front fuselage, the front end both sides of described fixed head are provided with Z axis guide rail, described Z axis guide rail is provided with slide block C, between slide block C on the Z axis guide rail of described both sides, be fixedly connected with by connecting plate B, described connecting plate B front end is provided with locating part A and locating part B, described fixed head upper end is connected with cylinder, and the take-off lever of described cylinder is located in described locating part B and is above fixedly connected with described connecting plate; Described locating part A and described locating part B front end are provided with a protective plate, and described fixed head is provided with the protective cover coordinating with described protective plate.

Described frame bottom surrounding is provided with universal wheel.

Described head front end is provided with presser foot lifter drive unit, described head outside is provided with mount pad, described mount pad comprises mounting seat and mounting cover, between described mounting cover and mounting seat, be provided with transmission cavity, in described transmission cavity, be provided with drive A and drive B, described mounting cover outside is provided with motor B, described mounting cover correspondence is provided with motor opening, the output sleeve of described motor B is connected to described drive A, in described mount pad, be equipped with power transmission shaft, described drive B is socketed on described power transmission shaft, between described drive A and described drive B, coordinate and drive described power transmission shaft to rotate, described power transmission shaft one end is located in described head and is socketed with cam, one end that described power transmission shaft stretches into head is connected with connector by bearing, described connector is hinged with middle connecting rod, described middle connecting rod front end is provided with drive C, described drive C is flexibly connected with described cam, described middle connecting rod bottom is connected with presser foot lifter connecting rod, described presser foot lifter connecting rod connects the presser foot lifting device of head front end, described presser foot lifter drive unit outside is socketed with over cap.

The present invention compared to existing technology outstanding and useful technique effect is: the present invention can effectively solve full-automatic sewing machine X, Y-direction driving mechanism is unstable, the lowering or hoisting gear of head has solved existing sewing machine cannot process the material that thickness exceedes presser lifting amount, and the presser foot lifter drive unit of head uniqueness has solved the long unsettled problem of presser foot lifter lifting causing of head.

Brief description of the drawings

Fig. 1 is structural representation of the present invention.

Fig. 2 is the structural representation of machine head base of the present invention.

Fig. 3 is the structural representation of Y-direction driving mechanism of the present invention.

Fig. 4 is the structural representation of machine head base of the present invention and Y-direction driving mechanism.

Fig. 5 is the assembling exploded view of X of the present invention to driving mechanism.

Fig. 6 is one of structural representation of head of the present invention.

Fig. 7 is the structural representation of elevating mechanism of the present invention.

Fig. 8 is the structural representation of main shaft of the present invention.

Fig. 9 is head rising internal spindle structural representation of the present invention.

Figure 10 is the structural representation of presser foot lifter drive unit of the present invention.

Figure 11 be head of the present invention structural representation two.

Figure 12 is the assembling exploded view of presser foot lifter drive unit of the present invention.

In figure: 1-head; 11-head; 12-fuselage; 2-frame; 3-platen; 4-automated exchanged cutter plate device; 5-X is to driving mechanism; 50-covering plate; 51-mounting pipe; 52-opening; 53-X axis rail; 54-slide block B; 55-mounting blocks A; 56-mounting blocks B; 57-screw mandrel B; 58-motor B; 59-feed screw nut's piece; 6-Y is to driving mechanism; 61-Y axis rail; 62-slide block; 63-connecting plate; 64-screw mandrel A; 65-coupling assembling; 66-feed screw nut's assembly; 67-motor A; 7-machine head base; 71-rail bed; 72-hooks line base; 73-Y axis rail mount pad; 74-median septum; 75-shoe cream room; 76-moves cavity; 8-moves groove; 13-elevating mechanism; 131-fixed head; 132-Z axis rail; 133-slide block C; 134-connecting plate B; 135-locating part A; 136-locating part B; 137-cylinder; 138-protective plate; 139-protective cover; 14-universal wheel; 15-presser foot lifter drive unit; 150-over cap; 151-motor opening; 152-drive A; 153-drive B; 154-motor B; 155-power transmission shaft; 156-cam; 157-connector; Connecting rod in 158-; 159-drive C; 1510-presser foot lifter connecting rod; 1511-mounting cover; 1512-mounting seat; 17-main shaft; 171-forward spindle; Main shaft after 172-; 173-universal joint.

Detailed description of the invention

Below in conjunction with accompanying drawing, with specific embodiment, the invention will be further described:

A kind of new automatic template sewing machine, comprises head of sewing machine 1, frame 2, platen 3, template, is arranged on the automated exchanged cutter plate device 4 that compresses described template on described platen, drives X that described automated exchanged cutter plate device moves back and forth on described platen along directions X to driving mechanism and the Y-direction driving mechanism that drives described automated exchanged cutter plate device to move back and forth on described platen along Y-direction; Described frame 2 upper ends are provided with described platen 3, and described head 1 is arranged on described platen 3 middle parts;

In described frame 2, be provided with machine head base 7, described machine head base 7 is positioned at described head 1 bottom;

Described machine head base 7 comprises rail bed 71 and hooks line base 72, described hook line base 72 is arranged on described rail bed 71 tops, described rail bed 71 is provided with mobile cavity 76 with described hook line base 72 junctions, and described mobile cavity 76 moves for described Y-direction driving mechanism 6; Described rail bed 71 and hook line base 72 are formed in one, stable while Y-direction driving mechanism 6 being moved by machine head base 7;

Described rail bed 71 upper ends are provided with described Y-direction driving mechanism 6, and described guiderail base 71 both sides are provided with Y-axis guide rails assembling seat 73.

Described Y-direction driving mechanism 6 comprises: be arranged on the Y-axis guide rail 61 on described Y-axis guide rails assembling seat 73, described Y-axis guide rail 61 is provided with slide block 62, between slide block 62 on described both sides Y-axis guide rail 61, be fixedly connected with by connecting plate 63, described connecting plate 63 is arranged in described mobile cavity, described connecting plate 63 lower ends are fixed with feed screw nut's assembly 66, described feed screw nut's assembly 66 is socketed on screw mandrel A64, described screw mandrel A64 is located in described rail bed 71, and be connected with described rail bed 71 by bearing, described screw mandrel A64 bottom is provided with the motor A67 that drives screw mandrel A to rotate, described motor A67 is arranged on described rail bed 71 rear ends, by connecting plate 63, two side slides 62 are fixed, can make both sides synchronizing moving, when mobile, can not produce deflection, and connecting plate 63 bottoms are fixedly connected with feed screw nut's assembly 66, it is upper that feed screw nut's assembly 66 is socketed in screw mandrel A64, and screw mandrel A64 bottom connects motor A67, drive screw mandrel A64 to rotate by motor A67, screw mandrel A64 coordinates with feed screw nut's assembly 66, thereby drives connecting plate 63Y to movement, by connecting plate 63, Y-direction driving mechanism 6 is moved stable.

Described connecting plate 63 upper ends are provided with coupling assembling 65, the outer end of described coupling assembling 65 is stretched out described panel 3 and is fixedly connected with to driving mechanism 5 with described X, the corresponding described coupling assembling 65 of described platen 3 is provided with mobile groove 8, and described X is arranged on described platen 3 tops to driving mechanism. Coupling assembling 65 is fixed on connecting plate 63 both sides, the outer end of coupling assembling 65 is stretched out described panel 3 and is fixedly connected with to driving mechanism 5 with described X, X is fixedly connected with coupling assembling 65 to driving mechanism 5 both sides, rear end, and X can be moved with Y-direction driving mechanism 6Y axle to driving mechanism 5.

Described X comprises mounting pipe 51 to driving mechanism 5, described mounting pipe 51 is fixedly connected with described coupling assembling 65, described mounting pipe 51 front ends are provided with opening 52, in described mounting pipe 51, be provided with X-axis guide rail 53, described X-axis guide rail 53 is provided with slide block B 54, described mounting pipe 51 two ends are provided with mounting blocks A55 and mounting blocks B56, described mounting blocks A, between B, be provided with screw mandrel B57, described screw mandrel B57 and described mounting blocks A, between B, connect by bearing, described screw mandrel B57 one end is connected with motor B58, described motor B58 is arranged on described mounting blocks B56, on described screw mandrel B57, be socketed with feed screw nut's piece 59, described feed screw nut's piece 59 connects described slide block B 54, described feed screw nut's piece 59 front ends connect described automated exchanged cutter plate device 4, between described automated exchanged cutter plate device 4 and described mounting pipe 51, be provided with covering plate 50. drive the rotation of screw mandrel B57 by motor B58, screw mandrel B57 is flexibly connected with feed screw nut's piece 59, feed screw nut's piece 59 rear ends are fixedly connected with slide block B 54, slide block B 54 connects X-axis guide rail, feed screw nut's piece 59 is fixed in slide block B 54, and move in X-direction by the rotation of screw mandrel B54, because feed screw nut's piece 59 leading portions are fixedly connected with automated exchanged cutter plate device 4, make automated exchanged cutter plate device 4 with the movement of feed screw nut's piece 59X direction of principal axis, by covering plate 50, mounting pipe 51 is sealed, prevent that foreign matter from entering the interior feed screw nut's of the impact piece 59 of mounting pipe 51 and moving.

Described rail bed 71 and hook line base 72 are formed in one. The one-body molded base that makes of described rail bed 71 and hook line base 72 is easy to process.

The middle part hollow of described rail bed 71 and described hook line base 72. The middle part hollow of described rail bed 71 and described hook line base 72 has alleviated manufacturing cost greatly.

Described hook line base 72 middle parts are provided with median septum 74, and described median septum 74 front sides are provided with shoe cream room 75, and described shoe cream room 75 1 places are provided with in-line, and another place is provided with return line, and described in-line is connected with the oil pump of frame downside respectively with return line. By oil pump, the lubricating oil in shoe cream room 75 sucked to the fuel reserve tank of oil pump and filters by screen pack, then oil is inserted in shoe cream room again, by the foreign material of filtering lubricant oil, making sewing machine avoid polluting.

Described head 1 comprises the head 11 of front end and the fuselage 12 of rear end, described head 1 adopts split setting, between described head 11 and described fuselage 12, be provided with elevating mechanism 13, the main shaft 17 of described head 1 inside is separated into forward spindle 171 and rear main shaft 173, and described forward and backward main shaft connects by universal joint 173. Existing sewing machine cannot be processed the material that thickness exceedes presser lifting amount, head 1 is adopted to split setting, between described head 11 and described fuselage 12, be provided with elevating mechanism 13, can make sewing machine processing thickness exceed the material of presser lifting amount, and again main shaft 17 is separated into forward spindle 171 and rear main shaft 173, described forward and backward main shaft connects by universal joint 173, has solved the problem that after head 1 promotes, main shaft 17 cannot rotate.

Described elevating mechanism 13 comprises the fixed head 131 that is arranged on described front fuselage, the front end both sides of described fixed head 131 are provided with Z axis guide rail 132, described Z axis guide rail 132 is provided with slide block C133, between slide block C133 on described both sides Z axis guide rail 132, be fixedly connected with by connecting plate B134, described connecting plate B134 front end is provided with locating part A135 and locating part B136, described fixed head 131 upper ends are connected with cylinder 137, and the take-off lever of described cylinder 137 is located in described locating part B136 and is above fixedly connected with described connecting plate 134; Described locating part A135 and described locating part B136 front end are provided with a protective plate 138, and described fixed head 131 is provided with the protective cover 139 coordinating with described protective plate 138. Locating part A135 and the locating part B136 of connecting plate B134 front end play position-limiting action, prevent that head 1 from coming off, by cylinder 137 is fixed on fuselage 12, the output shaft of cylinder 137 is fixedly connected with the head 11 of head 1, drives head to rise in the time that cylinder 137 bounces back.

Described frame 2 bottom surroundings are provided with universal wheel 14. Set up universal wheel 14 can make sewing machine conveniently moving.

Described head 1 front end is provided with presser foot lifter drive unit 15, described head 1 outside is provided with mount pad, described mount pad comprises mounting seat 1512 and mounting cover 1511, between described mounting cover 1511 and mounting seat 1512, be provided with transmission cavity, in described transmission cavity, be provided with drive A152 and drive B153, described mounting cover 1511 outsides are provided with motor B154, described mounting cover 1511 correspondences are provided with motor opening 151, the output sleeve of described motor B154 is connected to described drive A152, in described mount pad, be equipped with power transmission shaft 155, described drive B153 is socketed on described power transmission shaft 155, between described drive A152 and described drive B153, coordinate and drive described power transmission shaft 155 to rotate, described power transmission shaft 155 one end are located in described head 1 and are socketed with cam 156, one end that described power transmission shaft 155 stretches into head 1 is connected with connector 157 by bearing, described connector 157 is hinged with middle connecting rod 158, described middle connecting rod 158 front ends are provided with drive C159, described drive C159 is flexibly connected with described cam 156, described middle connecting rod 158 bottoms are connected with presser foot lifter connecting rod 1510, described presser foot lifter connecting rod 1510 connects the presser foot lifting device of head 1 front end, described presser foot lifter drive unit 15 outsides are socketed with over cap 150. presser foot lifter drive unit 15 is arranged on to head 1 middle part, can make presser foot lifter drive unit 15 and the connection line of the presser foot lifting device of head 1 front end shorten, thereby make presser foot lifting device stable, rotate by driven by motor drive A152, drive A152 engages with drive B153, thereby drive power transmission shaft 155 to rotate, cam 156 on power transmission shaft 155 rotates with power transmission shaft 155, middle connecting rod 158 is connected with described cam 156, and middle connecting rod 158 bottoms connect presser foot lifting device by presser foot lifter connecting rod 1510, be connected with described cam 156 by middle connecting rod 158, thereby driving presser foot lifting device.

Above-described embodiment is only preferred embodiment of the present invention, not limits the scope of the invention according to this, therefore: all equivalences of doing according to structure of the present invention, shape, principle change, within all should being covered by protection scope of the present invention.

Claims (10)

1. a new automatic template sewing machine, comprises head of sewing machine, frame, platen, template, peaceBe contained in the automated exchanged cutter plate device that compresses described template on described platen, drive described automated exchanged cutter template dressPut the X moving back and forth along directions X to driving mechanism on described platen and drive described automated exchanged cutter template dressPut the Y-direction driving mechanism moving back and forth along Y-direction on described platen; It is characterized in that: in described frameEnd is provided with described platen, and described head is arranged on described platen middle part;

In described frame, be provided with machine head base, described machine head base is positioned at described head bottom;

Described machine head base comprises rail bed and hooks line base, at the bottom of described hook line base is arranged on described trackSeat top, described rail bed and described hook line base junction are provided with mobile cavity, and described mobile cavity suppliesDescribed Y-direction driving mechanism moves;

Described rail bed upper end is provided with described Y-direction driving mechanism, and described guiderail base both sides are provided with Y-axis guide rail peaceDress seat.

2. the full-automatic template sewing machine of one according to claim 1, is characterized in that: described Y-directionDriving mechanism comprises, is arranged on the Y-axis guide rail on described Y-axis guide rails assembling seat, on described Y-axis guide rail, establishesHave slide block, between the slide block on the Y-axis guide rail of described both sides, be fixedly connected with by connecting plate, described connecting plate is establishedPut in described mobile cavity, described connecting plate lower end is fixed with feed screw nut's assembly, described feed screw nutAssembly is socketed in that screw mandrel A is upper, and described screw mandrel A is located in described rail bed, and by bearing with described inRail bed connects, and described screw mandrel A bottom is provided with the motor A that drives screw mandrel to rotate, and described motor A is arranged onDescribed rail bed rear end;

Described connecting plate upper end is provided with coupling assembling, and described panel and described X are stretched out in the outer end of described coupling assemblingBe fixedly connected with to driving mechanism, the corresponding described coupling assembling of described platen is provided with mobile groove, and described X is to drivingActuation mechanism is arranged on described platen top.

3. the full-automatic template sewing machine of one according to claim 2, is characterized in that: described X toDriving mechanism comprises mounting pipe, and described mounting pipe is fixedly connected with described coupling assembling, and described mounting pipe front end is establishedHave opening, be provided with X-axis guide rail in described mounting pipe, described X-axis guide rail is provided with slide block B, described mounting pipe twoEnd is provided with mounting blocks A and mounting blocks B, is provided with screw mandrel B, described screw mandrel B and institute between described mounting blocks A, BState between mounting blocks A, B and connect by bearing, described screw mandrel B one end is connected with motor B, and described motor B establishesPut on described mounting blocks B, on described screw mandrel B, be socketed with feed screw nut's piece, described feed screw nut's piece connects instituteState slide block B, described feed screw nut's piece front end connects described automated exchanged cutter plate device, described automated exchanged cutter templateBetween device and described mounting pipe, be provided with covering plate.

4. the full-automatic template sewing machine of one according to claim 1, is characterized in that: described trackBase and hook line base are formed in one.

5. the full-automatic template sewing machine of one according to claim 1, is characterized in that: described trackBase and described hook line base middle part hollow.

6. the full-automatic template sewing machine of one according to claim 1, is characterized in that: described hook lineBase middle part is provided with median septum, and described median septum front side is provided with shoe cream room, and described shoe cream room one place is provided with oil inlet pipeRoad, another place is provided with return line, and described in-line and return line connect with the oil pump of frame downside respectivelyConnect.

7. the full-automatic template sewing machine of one according to claim 1, is characterized in that: described headComprise the head of front end and the fuselage of rear end, described head adopts split setting, described head and described fuselageBetween be provided with elevating mechanism, the main shaft of described head inside is separated into forward spindle and rear main shaft, described before,Rear main shaft connects by universal joint.

8. the full-automatic template sewing machine of one according to claim 7, is characterized in that: described liftingMechanism comprises the fixed head that is arranged on described front fuselage, and the front end both sides of described fixed head are provided with Z axis guide rail,Described Z axis guide rail is provided with slide block C, solid by connecting plate B between the slide block C on the Z axis guide rail of described both sidesFixed connection, described connecting plate B front end is provided with locating part A and locating part B, and described fixed head upper end is connected with cylinder,The take-off lever of described cylinder is located in described locating part B and is above fixedly connected with described connecting plate; Described locating part ABe provided with a protective plate with described locating part B front end, described fixed head is provided with the protection coordinating with described protective plateCover.

9. the full-automatic template sewing machine of one according to claim 1, is characterized in that: described frameBottom surrounding is provided with universal wheel.

10. the full-automatic template sewing machine of one according to claim 1, is characterized in that: described machineFront end is provided with presser foot lifter drive unit, and described head outside is provided with mount pad, and described mount pad comprises installationBase and mounting cover, be provided with transmission cavity between described mounting cover and mounting seat, in described transmission cavity, establishHave described drive A and drive B, described mounting cover outside is provided with motor B, and described mounting cover correspondence is provided withMotor opening, the output sleeve of described motor B is connected to described drive A, in described mount pad, is equipped with transmissionAxle, described drive B is socketed on described power transmission shaft, between described drive A and described drive B, joinsThe moving described power transmission shaft of crossed belt rotates, and described power transmission shaft one end is located in described head and is socketed with cam, instituteState one end that power transmission shaft stretches into head and be connected with connector by bearing, described connector is hinged with middle connecting rod,Described middle connecting rod front end is provided with drive C, and described drive C is flexibly connected with described cam, described middle connecting rodBottom is connected with presser foot lifter connecting rod, and described presser foot lifter connecting rod connects the presser foot lifting device of head front end, instituteState presser foot lifter drive unit outside and be socketed with over cap.