Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
It should be noted that it can be installed directly in another group when component is referred to as " being installed in " another component
On part or there may also be components placed in the middle.When a component is considered as " being set to " another component, it be can be directly
It connects and is arranged on another component or may be simultaneously present component placed in the middle.When a component be considered as " being fixed on " another
Component, it, which can be, is directly anchored on another component or may be simultaneously present component placed in the middle.
Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention
The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool
The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein " and/or " it include one or more phases
Any and all combinations of the listed item of pass.
The present invention provides a kind of feed dog frame repositioning method, which is applied on an overedger.Fig. 1
For structural schematic diagram of the overedger 100 using feed dog frame repositioning method provided by the invention after clipped structure, Fig. 2
For the decomposition diagram of overedger 100 shown in Fig. 1, Fig. 3 is that overedger 100 shown in Fig. 1 omits the structural schematic diagram after shell 10.
Overedger 100 is mainly used for the lock seaming sewing of textile, has a wide range of applications in industry and household sewing, is particularly important
With accurate sewing machine.
Overedger 100 provided by the invention includes shell 10, main shaft 20, presser foot device 30, cloth feeding mechanism 40 and head
(not shown), main shaft 20 are set to the inside of shell 10 and are connected to cloth feeding mechanism 40 and head, presser foot device 30, cloth feeding mechanism
40 and head be all set on shell 10, presser foot device 30 and cloth feeding mechanism 40 are opposite and are arranged close to head.
For shell 10 for carrying main shaft 20, presser foot device 30, cloth feeding mechanism 40 and head, main shaft 20 is connected to power source
(not shown), and presser foot device 30, cloth feeding mechanism 40 and head operating, presser foot device 30 can be driven under the driving of power source
For pressing the cloth of the transport of cloth feeding mechanism 40 to improve the quality and quality of sewing processing, cloth feeding mechanism 40 is to be added for transporting
The cloth of work, head, which is used to sew, processes the cloth that the conveying of cloth feeding mechanism 40 comes.Drive cloth feeding mechanism 40 reciprocal by main shaft 20
Ground transports cloth, then by the tensioning cloth appropriate of presser foot device 30, head can be to the cloth for being in good tensioning state
Sewing processing is carried out, to complete the sewing-serging process of overedger 100.
Certainly, in addition to the above-mentioned shell 10 referred to, main shaft 20, presser foot device 30, cloth feeding mechanism 40 and head, overedger
The auxiliary bodies such as Guo Xian mechanism, lubricating structure can be also set in 100 to realize smoothly completing for overedger sewing process, herein not
It repeats.
It is referring to Figure 4 together the structural schematic diagram of cloth feeding mechanism 40 shown in Fig. 2 to Fig. 5, Fig. 4, Fig. 5 is to send shown in Fig. 4
Structural schematic diagram of the cloth mechanism 40 under another visual angle.
Cloth feeding mechanism 40 includes feed dog frame 41, the first transmission component 42, the second transmission component 43 and third transmission group
Part 44, the quantity of feed dog frame 41 are two, respectively active feed dog frame 411 and differential cloth-feeding retainer 412, the first transmission
Component 42 is connected to active feed dog frame 411 and differential cloth-feeding retainer 412, and the first transmission component 42 can be in the drive of main shaft 20
Dynamic lower rotation is to drive active feed dog frame 411 and differential cloth-feeding retainer 412 linear reciprocating motion in a first direction;Second
Transmission component 43 is set between the first transmission component 42 and differential cloth-feeding retainer 412, and the second transmission component 43 can be first
The linear reciprocating motion in a second direction of differential cloth-feeding retainer 412 is driven under the drive of transmission component 42;Third transmission component 44
It is set between the second transmission component 43 and active feed dog frame 411, third transmission component 44 can be in the second transmission component 43
Drive under driving active feed dog frame 411 linear reciprocating motion in a second direction.
Active feed dog frame 411 under the drive of the first transmission component 42 along first direction linear reciprocating motion, second
Linear reciprocating motion, the movement of active feed dog frame 411 in two directions are folded in a second direction under the drive of transmission component 43
Add, shows as reciprocal circular motion spatially.
The forms of motion of differential cloth-feeding retainer 412 is similar with the forms of motion of active feed dog frame 411, differential cloth-feeding tooth
Frame 412 under the drive of the first transmission component 42 along first direction linear reciprocating motion, under the drive of third transmission component 44
Linear reciprocating motion in a second direction, the movement superposition of differential cloth-feeding retainer 412 in two directions, shows as spatially past
Multiple circular motion.
Due to active feed dog frame 411 and differential cloth-feeding retainer 412 in a second direction to the dragging stroke of cloth often
It is greater than the movement travel of feed dog frame 41 in a first direction, therefore active feed dog frame 411 and differential cloth-feeding retainer 412
Reciprocal circular motion is relatively large in lateral up stroke, and up stroke is relatively small in a first direction, active feed dog frame 411 and poor
Dynamic feed dog frame 412 spatially shows as reciprocally elliptic motion.
Active feed dog frame 411 and movement of the differential cloth-feeding retainer 412 after being higher by working face can drag cloth, fall
The dragging position of itself, active feed dog frame 411 and differential cloth-feeding retainer 412 can be resetted by entering the movement under working face
Reciprocal elliptic motion can be matched with the movement of head, and active feed dog frame 411 conveys cloth with differential cloth-feeding retainer 412
To head, head carries out sewing to current cloth section after active feed dog frame 411 and 412 feeding of differential cloth-feeding retainer and adds
Work, feed dog frame 41 are further continued for dragging next length of cloth, are recycled and realized with this and held after head is to current cloth completion of processing
Continuous operation.
The feed dog 413 for dragging cloth is provided on feed dog frame 41, feed dog 413 can be past in feed dog frame 41
The drive of multiple elliptic motion cooperates presser foot device 30, feed dog 413 using with mutually supporting between presser foot device 30 and
Movement on first direction drags cloth using the movement in second direction to compress cloth.
Feed dog 413 includes the active tooth 4131 being set on active feed dog frame 411 and is set to differential cloth-feeding tooth
Differential tooth 4132 on frame 412 is provided with the active tooth 4131 for dragging cloth, active tooth on active feed dog frame 411
4131 have jagged surface to increase the drawing force to cloth;It is provided on differential cloth-feeding retainer 412 for dragging cloth
Differential tooth 4132, differential tooth 4132 is also equipped with jagged surface to increase the drawing force to cloth.Active tooth 4131 with
Setting is spaced apart from each other between differential tooth 4132, the gap between active tooth 4131 and differential tooth 4132 is used to provide the machine on head
The processing space of head, head on head can to having the initiative tooth 4131 and the cloth in differential 4132 gap of tooth is processed, from
And complete sewing operation.
In present embodiment, active feed dog frame 411 is opposite with the movement of differential cloth-feeding retainer 412 in a first direction same
Step, movement in a second direction is asynchronous, so that overedger 100 obtains preferably sewing processing effect.Certainly, actively
It can also be moved synchronously between feed dog frame 411 and differential cloth-feeding retainer 412.
One end and differential cloth-feeding retainer 412 on active feed dog frame 411 far from active tooth 4131 is far from differential tooth
4132 one end extends outwardly and forms two parallel adjutages 416, forms edge between two parallel adjutages 416 and send
The sliding groove 418 that 41 length direction of cloth retainer extends, the adjutage 416 that setting two is parallel to each other are used to adjust for feed dog frame 41
Whole angle.
It is referring to Figure 6 together feed dog frame regulating mechanism 60 and feed dog in overedger 100 shown in Fig. 2 to Fig. 8, Fig. 6
Structural schematic diagram when frame 41 cooperates, Fig. 7 are the decomposition diagram of feed dog frame regulating mechanism 60 shown in Fig. 6, and Fig. 8 is Fig. 7 institute
Show decomposition diagram of the feed dog frame regulating mechanism 60 under another visual angle.
In order to improve the adaptability to different-thickness cloth, the ability of machine system flexible manufacturing is promoted, on overedger 100
It is additionally provided with feed dog frame regulating mechanism 60, feed dog frame regulating mechanism 60 is connected to feed dog frame 41, by adjusting work feed
The angle and height of retainer 41 change the feeding state of different-thickness cloth using feed dog 413, so that cloth is in appropriate
Tensioning state, to improve the sewing efficiency of different-thickness cloth.
Feed dog frame regulating mechanism 60 is arranged in the side of shell 10 and is connected to feed dog frame 41, and feed dog frame is adjusted
Mechanism 60 includes adjusting component 61 and operating assembly 62, and the one end for adjusting component 61 is connected to operating assembly 62, and the other end connects
It is connected to feed dog frame 41, adjusts the angle that component 61 is used to adjust feed dog frame 41;Operating assembly 62 is arranged on the housing 10,
For controlling to adjust component 61.
Under the control action of operating assembly 62, component 61 is adjusted according to the thickness degree of cloth and adjusts accordingly feed dog
The inclination angle of frame 41, to change the inclination angle of feed dog 413 on feed dog frame 41, feed dog 413 is integral inclined to change itself
Highly, feed dog 413 adapts to the cloth of different thickness degree by oneself height and change of pitch angle.
Adjusting component 61 includes eccentric shaft 611 and adjusting slider 612, and eccentric shaft 611 is connected to operating assembly 62, adjusts and slides
Block 612 is set on eccentric shaft 611 and is embedded at two on feed dog frame 41 parallel adjutages 416, eccentric shaft 611
612 actuation of adjusting slider is able to drive under the driving of operating assembly 62, to adjust the angle of feed dog frame 41.
Eccentric shaft 611 includes eccentric segment 6111 and is connected to the concentric segments 6112 of eccentric segment 6111, eccentric shaft 611 it is same
Heart section 6112 is fixed on the housing 10, and eccentric shaft 611 can be around the center axis thereof of concentric segments 6112;In eccentric segment 6111
The center decentraction of the heart and concentric segments 6112, the two deviate a preset distance, and eccentric segment 6111 can be in concentric segments 6112
Drive lower moving.
Adjusting slider 612 is in bulk, inner hollow and the eccentric segment 6111 for being arranged eccentric shaft 611, adjusting slider 612
It is embedded between two parallel adjutages 416, the eccentric segment 6111 of adjusting slider 612 and eccentric shaft 611 is rotatablely connected, eccentric
The moving of the eccentric segment 6111 of axis 611 will drive the parallel moving of adjusting slider 612.
Since adjusting slider 612 is embedded between two parallel adjutages 416, adjusting slider 612 can be in adjutage
416 are formed by track and slide, and slide, can release in the sliding groove 319 that adjusting slider 612 is formed between adjutage 416
Movement in a second direction brought by eccentric shaft 611 is put, so that the parallel moving of adjusting slider 612 only will drive adjutage
416 rise or decline in a first direction.Adjutage 416 is arranged on one end of feed dog frame 41, feed dog frame 41 it is another
One end is fixed by main shaft 20, therefore adjutage 416 rises or declines in a first direction and will drive feed dog frame 41 and incline
Tiltedly, the inclined angle of feed dog frame 41 is determined by the distance that adjutage 416 moves in a first direction.
In an embodiment of the invention, operating assembly 62 adjusts the rotation of eccentric shaft 611 by way of Electronic control
Angle, to adjust on feed dog frame 41 to preset angle.
Further, operating assembly 62 includes electric control element 621 and transmission component 622, and transmission component 622 is set to automatically controlled
Between element 621 and eccentric shaft 611, electric control element 621 adjusts eccentric shaft by transmission component 622 by way of Electronic control
611 rotational angle, to adjust the angle and height of feed dog 413.
In present embodiment, the power that electric control element 621 exports is transferred to by transmission component 622 by the way of V belt translation
It adjusts at component 61.
Specifically, transmission component 622 include driving wheel 6221, driven wheel 6222 and synchronous belt 6223,6221 sets of driving wheel
It is located on 621 output shaft 6211 of electric control element, driven wheel 6222 is set in 611 concentric segments 6112 of eccentric shaft, synchronous belt 6223
It is arranged between driving wheel 6221 and driven wheel 6222.Driving wheel 6221 is fixedly connected with the output shaft 6211 of electric control element 621,
Driven wheel 6222 is fixedly connected with the concentric segments 6112 of eccentric shaft 611, and driving wheel 6221 transmits automatically controlled member by synchronous belt 6223
The power of 621 output shaft 6211 of part simultaneously drives driven wheel 6222 to rotate.
In present embodiment, threaded fasteners 6224 are provided on driven wheel 6222, the threaded fasteners 6224 wear from
It is screwed onto behind the center of driving wheel 6222 in the concentric segments 6113 of eccentric shaft 611, to realize driven wheel 6222 and eccentric shaft 611
It is fixed to each other.
It is appreciated that in other implementations, driven wheel 6222 can also be realized and bias using other modes
The fixation of axis 611, threaded fasteners 6224 can be omitted at this time.
The periphery of driving wheel 6221 and driven wheel 6222 has the gear teeth, and 6223 inner band of synchronous belt has tooth-shape structure,
So that synchronous belt 6223 and driving wheel 6221 and driven wheel 6222 are intermeshed.Electric control element 621 is powered after generation power, automatically controlled
The rotation of output shaft 6211 of element 621 will drive the rotation of driving wheel 6221, and driven wheel 6222 is come from by the transmitting of synchronous belt 6223
The rotational power of driving wheel 6221, the eccentric shaft 611 being fixedly connected with driven wheel 6222 rotate together, the rotation of eccentric shaft 611
It will drive the position change of the generation of adjusting slider 612 being rotatablely connected with eccentric shaft 611 in a first direction again, thus realization pair
The angle and height adjustment of feed dog frame 41.
The power output of electric control element 621 is rotated certain by the kind of drive driving eccentric shaft 611 of synchronous belt 6223
Predetermined angle effectively can precisely adjust the height and tilt angle of feed dog frame 41 and feed dog 413, further adapt to different
The sewing of thickness cloth, and be not easy to occur cloth and wrinkle or the problems such as cloth is layered.
Preferably, synchronous belt 6223 can be using wirerope or glass fibre as strength layer, outside coated with polyurethane or neoprene
The endless belt of rubber, it will be understood that the synchronous belt 6223 can be other composite materials and be made, as long as being able to maintain some strength,
Realize the purpose of V belt translation.
Further, central through hole is arranged in driving wheel 6221 and the output shaft 6211 of electric control element 621 is interference fitted fixation
On electric control element 621;From the concentric segments 6112 for being fixed on eccentric shaft 611 by screw in compression that move in turn, driven wheel 6222
Both sides of the face are respectively arranged with along from the 6222 positioning plate (not labeled) extended radially outward that move in turn, and the positioning plate is to limits synchronization
The axial unexpected abjection of band 6223 is from moving in turn 6222.
Certainly, driving wheel 6221 can also can also be fixed on electric control element 621 using the mode such as screw fastening
On, driven wheel 6222 can also be fixed in concentric segments 6112 using the other modes in addition to screw is fixed;As long as this is solid
Determine mode and can be realized to be reliably connected linkage between 6223 three of driving wheel 6221, driven wheel 6222 and synchronous belt.
Further, it is the transmission efficiency for keeping synchronous belt 6223, is also equipped on synchronous belt 6223 and drives synchronous belt
6223 are in the tensioner (not shown) of tensioning state.
Preferably, tensioner is arranged to strip structure, and one end of the tensioner can be fixed on the housing 10, and the other end is pressed in
6223 outside of synchronous belt, tensile force of the tensioner 6226 to control synchronous belt 6223.
In present embodiment, since the central axes of 621 output shaft 6211 of electric control element and the central axes of eccentric shaft 611 are mutual
In parallel, therefore the transmission direction of synchronous belt 6223 is consistent with the rotation direction of eccentric shaft 611.It is appreciated that implementing in others
It is main when the central axes of the central axes of 621 output shaft 6211 of electric control element and eccentric shaft 611 are deflected to other angles in mode
The central axes of driving wheel 6221 and the central axes of driven wheel 6222 can also form other angles, such as be vertically arranged or synchronous belt
6223 form intersection V belt translation, realize 611 turns of eccentric shaft of control by the transmission of synchronous belt 6223 as long as being able to achieve electric control element 621
Dynamic predetermined angle.
It is appreciated that the present invention, which does not limit transmission component 622 only, can use the kind of drive of above-mentioned V belt translation;?
In other embodiments, transmission component 622 can also be using other kinds of drive such as chain conveyer, worm and gear, gear drives
One of or more than one.
In present embodiment, electric control element 621 is stepper motor.It is appreciated that in other implementations, automatically controlled member
Part 621 also could alternatively be in addition to stepper motor other be driven by electricity element.As long as this is driven by electricity element and can be realized
Electronic control.
In an embodiment of the invention, adjusting component 61 further includes axle sleeve 613, and axle sleeve 613 is arranged eccentric shaft 611
Concentric segments 6112 and it is fixed on the housing 10, it is stable to provide eccentric shaft 611 for carrying eccentric shaft 611 for axle sleeve 613
Rotate environment.Axle sleeve 613 has many advantages, such as anticorrosive, at low cost, the work condition environment preferably to slowly run.
Further, axle sleeve 613 is copper sheathing.It is appreciated that in other implementations, casing can also use copper removal
Except other materials be made;Under the working condition requirement for not considering cost and slowly running, axle sleeve 613 can also be using rolling
Bearing.
In an embodiment of the invention, the two sides of adjusting slider 612 are respectively arranged a retaining ring 614, two gears
Circle 614 is oppositely arranged on the two sides of adjusting slider 612, and the eccentric segment of eccentric shaft 611 is sequentially set in adjusting slider 612
On 6111, retaining ring 614 is used for position of the secured adjusted sliding block 612 on eccentric shaft 611, avoids adjusting slider 612 due to vibration
Offset out sliding groove 418.
Further, retaining ring 614 is fixed on the eccentric segment 6111 of eccentric shaft 611 by the way of screw in compression.Certainly,
Retaining ring 614 can also use the other modes such as the solid, riveting of glue to be fixed on eccentric shaft 611, as long as retaining ring 614 can firmly be consolidated
It is scheduled on the eccentric segment 6111 of eccentric shaft 611;Adjusting slider 612 can also realize the limit of itself using other elements
Position, retaining ring 614 can be omitted at this time.
In order to realize the reset to feed dog frame inclination angle and height, enable overedger 100 in each booting or
Feed dog frame 41 is resetted when adjustment every time, inductive component 63 is additionally provided in overedger 100, inductive component 63 is for incuding and examining
The deflection angle of eccentric shaft 611 is surveyed, inductive component 63 and a control piece are electrically connected, which electrically connects with a driver
It connects, which connect with eccentric shaft 611 and eccentric shaft 611 can be driven to rotate.
Inductive component 63 persistently perceives and obtains the deflection angle of eccentric shaft 611, when needing to be reset feed dog frame, control
Part drives the driver to operate, and the operating of the driver can drive the eccentric shaft being correspondingly connected with 611 to rotate up at eccentric shaft 611
At the default angle of control piece, the eccentric rotary of eccentric shaft 611 is able to drive the reset of feed dog frame 41, to realize work feed
The entire reseting procedure of retainer 41.
Wherein, deflection angle of the eccentric shaft 611 in reseting procedure is by control piece according to the testing result of inductive component 63
With preset angle calculation and obtain namely inductive component 63 is to the detection result of 611 deflection angle of eccentric shaft and preset angle
Between departure, be exactly deflection angle of the eccentric shaft 611 in reseting procedure.
It should be noted that the preset angle of control piece refers to the target angle that eccentric shaft 611 needs to be adjusted to, at this time
Feed dog frame 41 is on target-angle and height.In present embodiment, preset angle refers to feed dog frame 41 in level
When eccentric shaft 611 angle, feed dog frame 41 is in a horizontal position at this time.Certainly, in other implementations, preset angle
Degree can also be the other angles except above-mentioned, and why preset angle specific choice is worth and can be selected according to actual working condition requirement
It selects.
In present embodiment, above-mentioned driver is selected as electric control element 621, so that overedger 100 be avoided also to need volume
Outer setting driver, reduces the amount of parts of complete machine, improves the compactedness of complete machine;Control piece is selected as overedger 100
Control centre, the control centre also control the operating of each executing agency of overedger 100 simultaneously, and control piece is selected as overedger
100 control centre can be avoided the additional setting control piece of needs, reduces the amount of parts of complete machine, improves the compact of complete machine
Property.
At this point, inductive component 63 persistently perceives and obtain the deflection angle of eccentric shaft 611, when needing to be reset feed dog frame
When, the complete machine control centre driving electric control element 621 of the control each executing agency of overedger 100 operating operates, electric control element 621
Operating and passing through transmission component 622 drives eccentric shaft 611 to turn at the preset angle of control centre, the rotation of eccentric shaft 611
Feed dog frame 41 is driven to be reset on the inclination angle and height of target, to realize reseting procedure.
It is appreciated that the present invention, which is not intended to limit driver only, can be selected as above-mentioned electric control element 621, other real
It applies in mode, additional driver can also be arranged to realize the adjusting to 611 deflection angle of eccentric shaft in overedger 100;This hair
It is bright also not limit control piece only and be selected as the complete machine control centre of overedger 100, in other implementations, overedger
100 can also be arranged the additional control pieces such as control element, control chip to realize control and induction to electric control element 621
The processing of the detection signal of component 63.
In present embodiment, inductive component 63 detects the deflection angle of eccentric shaft 611 using Hall effect.Inductive component
63 include Hall sensor 631 and magnetic part (not shown), and magnetic part is connected to eccentric shaft 611, can be with eccentric shaft 611
The variation of deflection angle and change in location occurs;Hall sensor 631 can perceive the magnetic field around itself, when the position of magnetic part
It sets and changes, Hall sensor 631 can measure out the location variation of magnetic part by the changes of magnetic field around itself;When
When offset between magnetic part and Hall sensor 631 forms corresponding relationship with the current angle of eccentric shaft 611, hall sensing
Device 631 can detect the current deflection angle of eccentric shaft 611 by the changes of magnetic field caused by magnetic part.
In an embodiment of the invention, magnetic part is magnet steel.It is appreciated that in other implementations, magnetic
Property part can also have magnetic elements to be other in addition to magnet steel.
In present embodiment, in order to realize being fixedly connected for magnetic part and eccentric shaft 611, magnetic part setting is having connector
632, connector 632 is substantially in a strip shape, and one end is fixed and is connected in the concentric segments 6112 of eccentric shaft 611, and the other end stretches out
Eccentric shaft 611 simultaneously protrudes between Hall sensor 631 and shell 10.
Specifically, connection sheet 632 opens up fluted (not shown) far from one end of eccentric shaft 611, and magnetic part is embedded in and consolidates
It is scheduled in the groove and corresponding with the formation of Hall sensor 631.It is appreciated that in other implementations, magnetic part may be used also
By by being fixed at the other positions of eccentric shaft 611 in a manner of bonding, be spirally connected etc., as long as connection sheet can be arranged in magnetic part
It can be detected on 632 and by Hall sensor 631.
The connector 632 of eccentric shaft 611, a side are connected to by being arranged between eccentric shaft 611 and Hall sensor 631
Face connector 632 can carry and fixed magnetic part, and another aspect connector 632 can amplify the deflection angle of eccentric shaft 611,
Help to improve the detection accuracy of Hall sensor 632.Certainly, magnetic part also can be arranged directly on eccentric shaft 611, at this time
Connector 632 can be omitted.
Inductive component 63 by interconnection between magnetic part and eccentric shaft 611, formed 611 deflection angle of eccentric shaft with
Corresponding relationship between magnetic part position, the specific location of magnetic part can be detected by Hall sensor 631 to be obtained, to realize
The parameter of 611 current yaw angle degree of eccentric shaft is detected and obtained using inductive component 63.
Hall sensor 631 and above-mentioned control piece are electrically connected, the corner that Hall sensor 631 oneself can will obtain
Parameter is sent at above-mentioned control piece, and control piece turns at preset angle further according to the state modulator electric control element 621,
To realize the reseting procedure to feed dog frame 41.
It is appreciated that the present invention does not limit the deflection angle that can only detect eccentric shaft 611 using Hall effect;?
In other embodiments, inductive component 63 can also using angular transducer, gyroscope, photoelectric sensor, encoder etc. its
His device and principle detect the deflection angle of eccentric shaft 611.
Further, in order to limit the deflection angle of eccentric shaft 611, eccentric shaft 611 is avoided to rotate when shutting down excessive
Angle and the problem of make the mobile excessive distance of magnetic part, magnetic part caused to leave 631 investigative range of Hall sensor, the present invention
The overedger 100 of offer offers limiting slot 633 on the housing 10, and limiting slot 633 opens up as sector, and connector 632 is along sector
Limiting slot 633 radially extending and can only rotate in limited angular range.
In present embodiment, the rotatable angular range of connector 632 is limited to the fan of 0-120 ° namely limiting slot 633
Shape center of circle angular region is 0-120 °;It is appreciated that in other implementations, the rotatable angular range of connector 632 is also
It can be set to other angles apart from the above.
Angle and height that overedger 100 adjusts feed dog frame 41 by feed dog frame regulating mechanism 60 are illustrated below, it is real
Now adapt to the principle of different thickness degree clothes.
When Level Change occurs under adjusting of the one end of feed dog frame 41 in feed dog frame regulating mechanism 60, feed dog frame
41 whole inclination angles change, and the change of 41 overall inclination angle of feed dog frame can change inclination angle namely the active tooth of feed dog 413
4131 is concordant from horizontal concordant oblique angle of changing into differential tooth 4132, due to active tooth 4131 with differential tooth 4132 respectively with difference
Elliptical orbit work feed, angle tilt bring Level Change can change the sewing efficiency of head between the two.
Also referring to Fig. 9 a to Fig. 9 c, Fig. 9 a is schematic illustration when feed dog frame 41 is in common working condition,
Fig. 9 b is in schematic illustration when thick material working condition for feed dog frame 41, and Fig. 9 c is that feed dog frame 41 is in thin material work shape
Schematic illustration when state.In figure, sign S indicates that the elliptical trajectory of active tooth 4131 and differential tooth 4132, V indicate actively
Tooth 4131 and differential tooth 4132 cut out corner cut direction when working face, and F indicates active tooth 4131 and differential tooth 4132 to cloth
Elastic force direction.
(1) when feed dog frame 41 is in common working condition: feed dog frame 41 does not tilt, active tooth 4131 and differential tooth
4132 is horizontal concordant, and the contact cloth synchronous with differential tooth 4132 of active tooth 4131, active tooth 4131 and differential tooth 4132 are made at this time
Corner cut direction when the direction of elastic force F for cloth and active tooth 4131 cut out working face with differential tooth 4132 is identical,
For vertical direction, this state is suitable for sewing to process the moderate cloth of general thickness, hardness.
(2) when feed dog frame 41 is in thick material working condition: feed dog frame 41 tilts, so that the height of active tooth 4131 is low
In the height of differential tooth 4132, the direction for the elastic force F that active tooth 4131 acts on cloth with differential tooth 4132 at this time still keeps perpendicular
Histogram to, but corner cut direction when active tooth 4131 and differential tooth 4132 cut out working face no longer keeps vertical direction, and
It is that work feed is carried out in a manner of beveling;
Since the height of active tooth 4131 is lower than the height of differential tooth 4132, differential tooth 4132 rises prior to active tooth 4131
To cloth is contacted above needle plate and in advance, the work feed efficiency of differential tooth 4132 is higher than the work feed efficiency of active tooth 4131, therefore main
With differential tooth 4132 when conveying cloth, differential tooth 4132 relative to active tooth 4131 there is dynamic tooth 4131 certain pursuit to imitate
Fruit forms the promotion effect to cloth, so that multilayer, stalk seam uniform thickness material work feed are smooth, needle gage is uniform, and sewing quality is more preferably.
(3) when feed dog frame 41 is in thin material working condition: feed dog frame 41 tilts, so that the height of active tooth 4131 is high
In the height of differential tooth 4132, the direction for the elastic force F that active tooth 4131 acts on cloth with differential tooth 4132 at this time still keeps perpendicular
Histogram is to but corner cut direction when active tooth 4131 and differential tooth 4132 cut out working face no longer keeps vertical direction, main
Dynamic tooth 4131 carries out work feed with differential tooth 4132 in a manner of beveling;
Since the height of active tooth 4131 is higher than the height of differential tooth 4132, active tooth 4131 rises prior to differential tooth 4132
Cloth is contacted to the top of needle plate 13 and in advance, and the work feed efficiency of active tooth 4131 is higher than the work feed efficiency of differential tooth 4132, therefore
When conveying cloth, active tooth 4131 has certain separate effect relative to differential tooth 4132 for active tooth 4131 and differential tooth 4132
Fruit forms the dilatory effect to cloth, so that the smooth not fold of the thin material such as grenadine, sewing quality is more preferably.
It is emphasized that above 100 structure of overedger to application feed dog frame repositioning method provided by the invention
Description is not intended to limit feed dog frame reset side provided by the invention just to indicate that the present invention has the basis that can be applied
Method is only applicable to the overedger 100 of foregoing description.In other implementations, feed dog frame repositioning method can also be applied to
In the overedger of other structures and other kinds of sewing machine, as long as the sewing machine has feed dog frame and can answer
With feed dog frame repositioning method provided by the invention.The detailed process of feed dog frame repositioning method is described again below.
Also referring to the process signal that Figure 10, Figure 10 are feed dog frame work feed method described in an embodiment of inventing
Figure.
The feed dog frame repositioning method is applied on an overedger, and the feed dog frame repositioning method is described for resetting
Feed dog frame in overedger enables the feed dog frame to be reset to predeterminated position in booting.
In an embodiment of the invention, predeterminated position is feed dog frame position when in a horizontal state,
It is appreciated that in other implementations, predeterminated position may be arranged as the other positions in addition to horizontality, tool
The predeterminated position of body can select according to the actual situation.
Overedger using the feed dog frame repositioning method further includes control piece, driver with feed dog frame adjusting machine
Structure, the feed dog frame regulating mechanism include adjusting component, and the adjusting component includes adjusting slider and wears the adjusting slider
Eccentric shaft, the adjusting slider is embedded in the feed dog frame and being capable of feed dog frame sliding relatively.
The feed dog frame repositioning method includes the following steps:
Step S10, the control piece issue reset instruction when the overedger is switched on.Specifically, the control piece is used
In controlling the driver, in overedger booting, the control piece issues reset instruction to the driver;It is described multiple
Bit instruction is issued by control piece as electronic signals, is received by the driver;The reset instruction can indicate the drive
The specific revolution of dynamic device operating and driver operating, specific revolution adjust preset with feed dog frame needs
Inclination angle and highly relevant.
Step S20, the driver receive the reset instruction and control the eccentric shaft turns.Specifically, the drive
Dynamic device and the control piece are electrically connected, and are mechanically connected with the eccentric shaft, and the driver can be in the control piece
The eccentric shaft turns are driven under control action;The driver is after receiving the reset instruction and starts running, and drives at this time
Dynamic device exports rotate driving power to the eccentric shaft.
Step S30, the eccentric shaft drive the adjusting slider to slide and go up and down on the feed dog frame, using described
Adjusting slider feed dog frame described in the lift adjustment on the feed dog frame is to preset inclination angle and height.
Specifically, the eccentric shaft includes concentric segments and the eccentric segment for being connected to concentric segments, the eccentric shaft it is concentric
Section is fixed on the shell of the overedger, and the eccentric shaft can be around the center axis thereof of concentric segments;The eccentric segment
The center decentraction at center and the concentric segments, the two deviate one section of preset distance, and eccentric segment can be in the drive of concentric segments
Lower moving;
The eccentric segment of the eccentric shaft wears the socket sliding block, and the adjusting sliding is embedded the two of the feed dog frame
On a parallel wall extension, and can the feed dog frame described in the eccentric rotary lower edge of the eccentric shaft length direction sliding with
And gone up and down along the short transverse of the feed dog frame, lifting of the adjusting slider on the feed dog frame will drive and itself
The feed dog frame of connection is gone up and down at one end, is also achieved that the adjusting to feed dog frame overall inclination angle, feed dog frame inclination angle
After change, whole height changes, to realize the adjusting to feed dog frame height;Described in the adjusting slider drives
On feed dog frame to preset inclination angle and height, it is also achieved that the reset to the feed dog frame.
It should be noted that the preset inclination angle of feed dog frame refers to the target that the feed dog frame needs to be adjusted to
Inclination angle, the preset height of feed dog frame refer to the object height that the feed dog frame needs to be adjusted to.Present embodiment
In, inclination angle when the preset inclination angle of feed dog frame is in a horizontal position for the feed dog frame, also as 0 °;The work feed
The preset height of retainer is height of the feed dog frame in level.
Certainly, in other implementations, the preset inclination angle of the feed dog frame can with why height specific choice is worth
To be selected according to actual working condition requirement.
In first embodiment of the invention, control piece starting up together with the overedger, " institute at this time
State control piece and issue reset instruction when the overedger is switched on " step S10 specifically include step S11:
Step S11, the control piece start together with the overedger, and the control piece is issued to the driver to be resetted
Instruction.
Specifically, the control piece is opened simultaneously with the overedger, can be reduced the standby time of the control piece, be subtracted
The working time of few control piece helps to improve the overedger complete machine to extend the working life of the control piece
Reliability and stability.
At this point, feed dog frame repositioning method provided by the invention includes:
Step S11, the control piece start together with the overedger, and the control piece is issued to the driver to be resetted
Instruction.
Step S20, the driver receive the reset instruction and control the eccentric shaft turns.
Step S30, the eccentric shaft drive the adjusting slider to slide and go up and down on the feed dog frame, using described
Adjusting slider feed dog frame described in the lift adjustment on the feed dog frame is to preset inclination angle and height.
Certainly, in other implementations, the control piece round-the-clock can also start, namely no matter overedger is
No to be in open state, the control piece is in starting state;The round-the-clock starting of control piece, it is possible to reduce described in waiting
Time when control piece starts avoids needing the overedger is standby to wait the control because the control piece starts overlong time
Product is conducive to improve production efficiency.
In second embodiment of the invention, the reset instruction inputted in step S10 passes through input by operator
In device (not shown) input control piece, the input unit and the controller are electrically connected, in the input unit to described
In controller after input reset instruction, the control device reset instruction is sent at driver described in paper.
At this point, step S10 includes step S12 and step S13:
Step S12, operator input reset instruction to the control piece by input unit;
Step S13, the control piece issue reset instruction to the driver.
Preferably, the input unit is an operation panel, and operator can operate on the operation panel, thus logical
It crosses the operation panel and generates control signal (i.e. reset instruction) for resetting the feed dog frame.Using the operation panel
As the input source of the reset instruction, a kind of device of human-computer interaction can be provided, operator can pass through the operation
Panel controls inclination angle and the height of the feed dog frame;Step S12 specifically includes step S121 at this time:
Step S121, operator input reset instruction to the control piece by operation panel.
Further, suggestion key is additionally provided on the operation panel, operator can suggest key by these
Adjustment parameter is arranged in one step, such as inclination angle and height that the feed dog frame needs to adjust is arranged, to improve operation just
Victory, step S121 specifically includes step S122 at this time:
Step S122, operator input reset instruction to the control piece by the suggestion key of operation panel.
At this point, feed dog frame repositioning method provided by the invention includes:
Step S122, operator input reset instruction to the control piece by the suggestion key of operation panel.
Step S13, the control piece issue reset instruction to the driver.
Step S20, the driver receive the reset instruction and control the eccentric shaft turns.
Step S30, the eccentric shaft drive the adjusting slider to slide and go up and down on the feed dog frame, using described
Adjusting slider feed dog frame described in the lift adjustment on the feed dog frame is to preset inclination angle and height.
It is appreciated that the input of reset instruction can also be realized using other devices in addition to operation panel, Ye Jisuo
Stating input unit can also use other devices in addition to operation panel realize the instruction input to the control piece;In addition,
Reset instruction, which also may not need, to be input from the outside device input and generates, and in other implementations, reset instruction can be with
It automatically generates in booting and is inputted without external input device.
In third embodiment of the invention, the overedger further includes inductive component, the inductive component and institute
Control piece electric connection is stated, the inductive component can incude the deflection angle of the eccentric shaft and will inspection in a manner of electric signal
It surveys result to be transferred at the control piece, the control piece can receive the eccentric shaft deflection that the inductive component detects
Angle simultaneously issues reset instruction accordingly.
When the overedger is provided with inductive component, described " control piece issues multiple when the overedger is switched on
The step S10 of bit instruction " includes the following steps S14 and step S15:
Step S14, the inductive component perceive the deflection angle of the eccentric shaft.
Step S15, the control piece detect when the overedger is switched on according to the inductive component described inclined
The deflection angle of mandrel issues reset instruction.
Specifically, it is described can inductive component persistently perceive and obtain the deflection angle of the eccentric shaft, when needing to be reset
When feed dog frame, the complete machine control centre driving electric control element operating of each executing agency's operating of control overedger, electric control element
It operates and is driven at eccentric shaft turns to the preset angle of control centre by transmission component, the rotation of eccentric shaft drives feed dog
Frame is reset on the inclination angle and height of target, to realize reseting procedure.
Need to illustrate when, the deflection angle refers to the eccentric shaft when current location is relative to target position
Angular deviation, the inductive component can detecte the current angular of the eccentric shaft, then directly be calculated by internal processor
After the deflection angle, it is transferred in the control piece as electronic signals;The inductive component can also only detect described inclined
The current angular of mandrel, then current angular is sent directly at the control piece, calculating is directly handled by the control piece, with
Obtain the deflection angle.
Both the above mode was encompassed by the step of " deflection angle that the inductive component perceives the eccentric shaft ".
Specific deflection angle of the eccentric shaft before adjusting is known that the inductive component will be detected by the inductive component
To specific deflection angle of the eccentric shaft before adjusting be transmitted at the control piece as electronic signals, the control
Part calculates the output revolving speed of the actuator accordingly, to adjusting the feed dog frame onto preset inclination angle and height.If
After setting the inductive component, the overedger can realize adjusting automatically after powering, input eccentric shaft without operator
The degree of automation of the regulated quantity for needing to adjust, the overedger improves.
At this point, the feed dog frame repositioning method provided by the invention includes:
Step S14, the inductive component perceive the deflection angle of the eccentric shaft.
Step S15, the control piece detect when the overedger is switched on according to the inductive component described inclined
The deflection angle of mandrel issues reset instruction.
Step S20, the driver receive the reset instruction and control the eccentric shaft turns.
Step S30, the eccentric shaft drive the adjusting slider to slide and go up and down on the feed dog frame, using described
Adjusting slider feed dog frame described in the lift adjustment on the feed dog frame is to preset inclination angle and height.
Further, the inductive component detects the deflection angle of the eccentric shaft using Hall effect, at this time step
S14 specifically includes step S141:
Step S141: the inductive component perceives the deflection angle of the eccentric shaft by Hall effect.
Specifically, the inductive component includes Hall sensor and magnetic part (not shown), and the magnetic part is connected to
With the variation of the eccentric shaft deflection angle change in location can occur for eccentric shaft;The Hall sensor can perceive
Magnetic field around itself, when the position of the magnetic part changes, the Hall sensor can pass through the magnetic around itself
Field variable quantity calculates the location variation of the magnetic part;Offset between the magnetic part and the Hall sensor
When forming corresponding relationship with the current angle of the eccentric shaft, the Hall sensor can be by caused by the magnetic part
Changes of magnetic field detect the current deflection angle of the eccentric shaft.
The deflection angle that the eccentric shaft is sensed by Hall effect, the precision not only detected is high, but also environment resistant is dry
The ability disturbed is strong, low in cost.
Certainly, in other implementations, the inductive component can also using angular transducer, gyroscope etc. other
Device and principle detect the deflection angle of the eccentric shaft.
The feed dog frame regulating mechanism further includes operating assembly, and the operating assembly includes electric control element and transmission group
Part, the transmission component are set between the electric control element and the eccentric shaft, and the output kinetic energy of the electric control element can be with
It is transmitted at the eccentric shaft by the transmission component, the electric control element controls under the transmission effect of the transmission component
The eccentric shaft turns simultaneously drive the adjusting slider to adjust inclination angle and the height of the feed dog frame.
In an embodiment of the invention, the driver is the electric control element in the operating assembly;So set
It sets, can also need that additional driving source is arranged to avoid the overedger, it is possible to reduce the amount of parts of overedger complete machine mentions
The compactedness of high complete machine.
The overedger also has control centre, and the control centre is used to control the operating of overedger all parts, example
Such as control the operating of head, the rotation of main shaft.
In an embodiment of the invention, the control piece is selected as the control centre of the overedger, the control
The integrated control of the overedger may be implemented in the control centre that product is selected as the overedger, reduces overedger complete machine
Amount of parts improves the compactedness of complete machine.
It is appreciated that the present invention, which is not intended to limit driver only, can be selected as electric control element in the operating assembly,
In other embodiments, the driver can not also use the electric control element in the operating assembly, but by cylinder,
Electromagnet or the mode of other equal outer setting of motor realize the adjusting to the eccentric shaft deflection angle;
Same reason, the present invention, which does not limit control piece only, yet can be selected as the complete machine control centre of overedger, at it
In his embodiment, control piece can not also use the complete machine control centre of the overedger, but pass through control chip etc.
The control element being additionally arranged controls the operating of the driver.
In an embodiment of the invention, the transmission component is exported the driver by the way of V belt translation
Power be transferred on the eccentric shaft.It is appreciated that in other implementations, the transmission component can also use chain
Other kinds of drive such as transmission, gear drive, Worm Wheel System.
The feed dog frame repositioning method provided by the invention can realize feed dog frame after overedger booting
It resets, the feed dog frame is failed in subsequent adjusting by based on initial position, avoiding adjusting, packet is improved
The reliability of seam machine.It is accurate to adjust using the overedger of this method, has wider application prospect.
Those skilled in the art it should be appreciated that more than embodiment be intended merely to illustrate the present invention,
And be not used as limitation of the invention, as long as in spirit of the invention, to made by embodiment of above
Appropriate change and variation are all intended to fall within the scope of the claimed invention.