CN214992286U - Novel sewing machine - Google Patents

Abstract

The utility model relates to the technical field of sewing machines, in particular to a novel sewing machine, which comprises a frame, a main shaft, a feeding shaft, a first driving motor, a second driving motor, a thread trimming mechanism, a reverse and forward sewing adjusting mechanism, a thread loosening mechanism and a presser foot adjusting mechanism, wherein the first driving motor drives the thread trimming mechanism, the reverse and forward sewing adjusting mechanism and the thread loosening mechanism; the second driving motor drives the presser foot adjusting mechanism and the thread releasing mechanism; the thread cutting machine is characterized in that a first stroke area of the rotation angle of the output shaft of the first driving motor corresponds to the backward and forward sewing adjusting mechanism, a second stroke area of the rotation angle of the output shaft of the first driving motor corresponds to the thread cutting mechanism and the thread loosening mechanism, and the first stroke area and the second stroke area are not overlapped. The utility model relates to a novel sewing machine with a common motor for the thread trimming function, the thread loosening function and the backstitch function.

Description

Novel sewing machine

Technical Field

The utility model relates to the technical field of sewing machines, in particular to a novel sewing machine.

Background

A sewing machine is a machine that uses one or more sewing threads to form one or more stitches in a material to be sewn, thereby interweaving or stitching one or more layers of material.

Present sewing machine generally has the trimming function, loosens line function and function of sewing back, and the trimming function uses with the pine line function cooperation, and the function of sewing back alone moves, independent operation each other, and this just leads to needing a plurality of driving sources to carry out work, and this can cause the long-pending increase of sewing machine, and the structure becomes complicated, and inconvenient later maintenance and the problem of maintaining can't guarantee the synchronism simultaneously, influences sewing machine's sewing effect. Moreover, the function of adjusting the pressure of the presser foot is relatively deficient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel sewing machine of a motor is shared to thread trimming function, thread slackening function and backstitch function.

The purpose of the utility model is realized like this:

a novel sewing machine comprises a frame, a main shaft, a feeding shaft, a first driving motor, a second driving motor, a thread trimming mechanism, a backward and forward sewing adjusting mechanism, a thread loosening mechanism and a presser foot adjusting mechanism,

the first driving motor drives the thread trimming mechanism, the backward and forward sewing adjusting mechanism and the thread loosening mechanism;

the second driving motor drives the presser foot adjusting mechanism and the thread releasing mechanism;

a first stroke area of the rotation angle of the output shaft of the first driving motor corresponds to the backward and forward seam adjusting mechanism,

a second stroke area of the rotation angle of the output shaft of the first driving motor corresponds to the thread trimming mechanism and the thread loosening mechanism, and the first stroke area and the second stroke area are not overlapped;

a steel cable assembly is mounted on a wire shearing shaft of the wire shearing mechanism, extends to the head of the rack and is connected with a wire loosening plate to perform wire shearing, and the wire is loosened synchronously;

the backward and forward seam adjusting mechanism is arranged between the main shaft and the feeding shaft and is used for adjusting the rotating speed and the rotating direction of the feeding shaft;

the thread releasing mechanism is arranged on the rack and used for releasing the thread clamping device;

the presser foot adjusting mechanism comprises a driving sleeve, and a second driving motor drives the presser foot rod to move up and down through the driving sleeve; one side of the driving sleeve is provided with a shifting part; when the driving sleeve moves upwards to a set position, the shifting part drives the thread loosening plate to loosen threads.

Preferably, the upper part of the presser bar is provided with an upper positioning check ring, the lower part of the presser bar is provided with a lower positioning crank, and the presser bar between the upper positioning check ring and the lower positioning crank is sleeved with a spring and the driving sleeve; the upper end of the spring is abutted against the lower side of the driving sleeve, and the lower end of the spring is abutted against the lower positioning crank; the second driving motor drives the driving sleeve to vertically slide on the presser bar; when the driving sleeve moves upwards, the upper positioning retainer ring drives the presser bar; when the driving sleeve moves downwards, the presser foot rod is driven by the spring and the lower positioning crank.

Preferably, a magnetic component is fixed on one side of the upper positioning check ring or the lower positioning crank; and the rack is provided with a Hall sensor for sensing the magnetic component.

Preferably, the structure that the second driving motor and the driving sleeve are matched is as follows:

a gear part is arranged on a motor shaft of the second driving motor, and a rack part matched with the gear part is arranged on one side of the driving sleeve;

or a crank and a connecting rod are arranged on a motor shaft of the second driving motor, and the other end of the connecting rod is hinged with the presser foot rod;

or an eccentric wheel is installed on a motor shaft of the second driving motor, a groove rail matched with the second driving motor is arranged on one side of the driving sleeve, and the eccentric wheel is placed in the groove rail.

Preferably, a driven part matched with the poking part is formed on the wire loosening plate; in the process that the driving sleeve moves upwards, the wire loosening plate is stirred to rotate, and the stirring part drives the driven part to push the wire clamping device to loosen.

Preferably, the other side of the thread loosening plate is provided with a pushing part, and the pushing part is an inclined surface; the push rod of the wire clamping device is pushed in the process that the push part swings downwards.

Preferably, a feeding swing seat in the backward and forward sewing adjusting mechanism rotates around a set pin shaft, and the rotating angle of the feeding swing seat around the pin shaft determines the needle pitch and backward and forward sewing switching of the sewing machine; the backward and forward seam adjusting mechanism comprises a first crank and a first connecting rod; the first crank is fixed on the output shaft and rotates along with the output shaft, the outer end of the first crank is hinged with a first connecting rod, and the other end of the first connecting rod drives the feeding swing seat;

the rotation angle of the output shaft can be divided into a first adjusting area, a second adjusting area and a third adjusting area; the first regulating area, the second regulating area and the third regulating area form a continuous sector area;

when the output shaft drives the first crank to swing anticlockwise to the limit position, the position of a hinge point of the first crank and the first connecting rod is marked as a starting point of the first adjusting area;

when the output shaft drives the feeding swinging seat to swing to zero needle pitch, the position of a hinge point of the first crank and the first connecting rod is marked as an intersection point of the first adjusting area and the second adjusting area;

when the output shaft drives the rotation center of the first crank, the hinge point of the first crank and the first connecting rod, and the hinge point of the first connecting rod and the feeding swinging seat to be in a straight line, the position of the hinge point of the first crank and the first connecting rod is marked as an intersection point of the second adjusting area and the third adjusting area;

when the output shaft drives the first crank to swing clockwise to the extreme position, the position of a hinge point of the first crank and the first connecting rod is recorded as the terminal point of the third adjusting area;

the first adjusting area and the second adjusting area correspond to a backstitch or a front stitch of the sewing machine; when the output shaft rotates to a first adjusting area and a second adjusting area, the backward and forward seam adjusting mechanism is actively adjusted;

in the process that the output shaft drives the first crank to enter a third adjusting area from the second adjusting area, the needle pitch of the feeding swinging seat is gradually increased to the maximum needle pitch and then gradually decreased;

when the thread cutting mechanism is located at a position for cutting off sewing threads, the output shaft is located in the range of the third adjusting area;

the first stroke zone corresponds to the first and second conditioning zones,

the second stroke zone corresponds to a third adjustment zone.

Preferably, when the thread trimming mechanism is at an initial position for executing thread trimming, the first crank is located within a range of ± 45 degrees of an intersection point of the second adjusting area and the third adjusting area;

and in the process of cutting off the sewing thread by the thread cutting mechanism, the needle pitch of the feeding swinging seat gradually becomes smaller.

Preferably, when the thread trimming mechanism is at the initial position for executing the thread trimming action, the first crank is located within ± 2 degrees of the intersection point of the second adjusting area and the third adjusting area.

Preferably, the thread trimming mechanism comprises:

a trimming cam installed on an output shaft of the first driving motor;

a third link having a guide groove; the output shaft penetrates through the guide groove and limits the third connecting rod;

the trimming cam drives the third connecting rod to move up and down along the effective stroke of the guide groove;

the lower end of the third connecting rod drives the thread cutting crank and the thread cutting shaft;

an ascending reset pushing part and a descending trimming pushing part are arranged on one side of the third connecting rod; the trimming cam is positioned between the upward reset pushing part and the downward trimming pushing part; when the output shaft rotates reversely and resets, under the condition that the reset torsion spring of the thread cutting mechanism fails, the thread cutting cam forcibly resets the thread cutting mechanism through the ascending reset pushing part, and when the rotating angle of the output shaft enters a second adjusting region, the thread cutting cam is separated from the ascending reset pushing part.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

1. the utility model relates to a connect the cable wire subassembly on the thread trimming axle, drive the work of thread tension releasing mechanism through the cable wire subassembly, the first driving motor of thread tension releasing mechanism and thread tension releasing mechanism sharing is sewed up in the same direction as simultaneously, realize realizing the thread trimming function through a motor, thread tension releasing function and the three function of backstitch function, simplified overall structure, the probability that the reduction trouble took place, the volume can be reduced to the sewing machine design that relatively has simultaneously, weight reduction, and reduce cost uses more simply conveniently.

2. The utility model discloses a presser foot adjustment mechanism can not lift the presser foot, can also adjust the pressure of presser foot, makes the presser foot have suitable pressure to the cloth all the time to avoid the damage of cloth.

3. The utility model discloses a portion of stirring that sets up on the drive assembly can stir the pine line board and rotate when lifting the presser foot to promote the pine line ejector pin, realize the operation of loosing the line, simple structure, convenient to use.

4. The utility model discloses a second driving motor drives presser bar and goes up and down, no matter be the connecting rod adjust or the eccentric wheel is adjusted, also perhaps gear portion adjusts, compares the drive track isotructure that prior art seted up, the utility model discloses a processing is more simple and convenient.

5. The utility model discloses a reverse and forward seam adjusting mechanism, which comprises a first crank and a first connecting rod; the first crank is fixed on the output shaft and rotates along with the output shaft, the outer end of the first crank is hinged with a first connecting rod, and the other end of the first connecting rod drives the feeding swing seat; compare in common cam mechanism, the crank mechanism that this application adopted is a lot of less than cam mechanism's cost, and the friction contact face is less moreover, and the noise is low, and high-speed be difficult to generate heat or the card dies, and the machining precision of demand is lower. In addition, based on the requirement of quick response of the sewing machine, one action should be completed within 30-70 ms, the stroke required by the cam mechanism to complete the corresponding action is much larger, and the corresponding speed is relatively slow; the crank mechanism is more sensitive in response in a small range; the inertia generated by the movement is less, the vibration is less, and the requirement of quick response is met.

6. When the thread trimming mechanism of the utility model is at the initial position for executing thread trimming action, the hinge point of the first crank and the first connecting rod is positioned in the range of plus or minus 45 degrees of the intersection point of the second adjusting area and the third adjusting area; in the process that the sewing thread is to be cut off by the thread cutting mechanism, the needle pitch of the feeding swing seat gradually becomes smaller; according to the design, in the thread cutting process, no matter the starting point of the thread cutting is arranged in the second adjusting area or the third adjusting area, the position of the thread cutting mechanism is about to cut the sewing thread, the hinge point of the first crank and the first connecting rod is always located in the range of the third adjusting area, the needle pitch is gradually reduced, and the executable space of the thread cutting mechanism is increased.

7. The utility model discloses a when the presser foot promoted, can improve sewing machine's work effect with the pine thread device collaborative work.

Drawings

Fig. 1 is a schematic structural view of a sewing machine according to embodiment 1 of the present invention.

Fig. 2 is a schematic view of an internal structure of a sewing machine according to embodiment 1 of the present invention.

Fig. 3 is a schematic view of the reverse and forward sewing adjusting mechanism and the thread trimming mechanism according to embodiment 1 of the present invention.

Fig. 4 is a schematic structural diagram of the thread trimming mechanism and the thread releasing mechanism according to embodiment 1 of the present invention.

Fig. 5 is a schematic view of a thread trimming mechanism according to embodiment 1 of the present invention.

Fig. 6 is one of schematic views of a presser foot adjustment mechanism according to embodiment 1 of the present invention.

Fig. 7 is a second schematic view of the presser foot adjustment mechanism according to embodiment 1 of the present invention.

Fig. 8 is a working area corresponding to the corner of the output shaft according to embodiment 1 of the present invention.

Fig. 9 is a schematic view of the sewing machine according to embodiment 1 of the present invention at the maximum gauge of the front seam.

Fig. 10 is a schematic view of a sewing machine according to embodiment 1 of the present invention at a zero gauge when a backstitch and a backstitch intersect.

Fig. 11 is a schematic view of the sewing machine according to embodiment 1 of the present invention at the maximum backstitch gauge.

Fig. 12 is a schematic view of the stitch length when the thread trimming of the sewing machine according to embodiment 1 of the present invention is completed.

Fig. 13 is one of schematic views illustrating the operation of the trimming cam of the trimming mechanism according to embodiment 2 of the present invention.

Fig. 14 is a second schematic view illustrating the operation of the trimming cam of the trimming mechanism according to embodiment 2 of the present invention.

Fig. 15 is a schematic view of a presser foot adjustment mechanism according to embodiment 3 of the present invention.

Fig. 16 is a schematic view of a presser foot adjustment mechanism according to embodiment 4 of the present invention.

Reference numerals:

1-a frame; 2-a main shaft; 3-a feeding shaft; 4-a first drive motor; 5-a thread trimming mechanism; 6-a reverse and forward seam adjusting mechanism; 7-an output shaft of the first drive motor; 8-a thread releasing mechanism; 9-a presser foot adjustment mechanism; 10-moving blade assembly; 11-a second drive motor; 12-a machine head; 13-a stand; 14-presser foot;

501-trimming cam; 502-a third link; 503-a guide groove; 504-trimming crank; 505-shear spool; 506-an uplink reset pushing part; 507-a downlink trimming pushing part; 508-a return torsion spring; 509-hook; 510-pushing the shaft; 512-trimming swing arm;

61-feeding swing seat; 62-a pin shaft; 701-a first crank; 702-a first link;

80-loose wire crank; 81-a wire rope assembly; 82-a wire gripper; 801-loose wire plate; 802-a slave; 803-a pushing portion; 804-a mandril;

90-a drive sleeve; 901-positioning a retainer ring; 902-lower positioning crank; 903-presser bar; 904-magnetic component; 905-Hall sensor; 906-a spring; 931-a toggle part; 95-gear portion; 96-rack portion; 97-crank; 98-connecting rod; 99-eccentric wheel; 907-grooved rail;

111-an output shaft of a second drive motor;

a1 — first regulatory region; a2 — second regulatory region; a 3-third regulatory region; a4 — non-working regulation zone;

s1 — first stroke zone; s2 — second stroke zone;

p 1-center of rotation of first crank; p 2-the hinge point of the first crank and the first link; p 3-the hinge point of the first connecting rod and the feeding swing seat;

b 1-start of first regulatory region; b2 — the intersection of the first and second regulatory regions; b 3-the intersection of the second and third regulatory regions; b 4-end of the third regulatory region.

Detailed Description

The following describes the present invention in further detail with reference to the accompanying drawings.

Example 1:

as shown in fig. 1-12, a novel sewing machine comprises a frame 1, a main shaft 2, a feeding shaft 3, a first driving motor 4, a thread trimming mechanism 5 and a forward and backward sewing adjusting mechanism 6, wherein the forward and backward sewing adjusting mechanism 6 is arranged between the main shaft 2 and the feeding shaft 3, a feeding swing seat 61 in the forward and backward sewing adjusting mechanism 6 rotates around a set pin shaft 62, and the switching between the needle pitch and the forward and backward sewing of the sewing machine, namely the rotating speed and the rotating direction of the feeding shaft 3, is determined by the rotating angle of the feeding swing seat 61 around the pin shaft 62;

the thread releasing mechanism 8 is connected with the thread cutting shaft 505 through the steel cable assembly 81, and the rotation of the thread cutting shaft 505 drives the thread releasing mechanism 8 to release threads;

the thread trimming mechanism 5, the backward and forward sewing adjusting mechanism 6 and the thread loosening mechanism 8 are all driven by an output shaft 7 of a first driving motor; the first stroke area S1 of the rotation angle of the output shaft 7 corresponds to the forward and backward sewing adjusting mechanism 6,

the second stroke area S2 of the rotation angle of the output shaft 7 corresponds to the thread trimming mechanism 5 and the thread releasing mechanism 8, and the first stroke area S1 and the second stroke area S2 do not overlap;

the thread loosening mechanism 8 comprises a thread clamping device 82 and a thread loosening plate 801, the thread loosening plate 801 is arranged on the rack 1 and connected through bolts, a torsion spring is installed on each bolt, restoring force is provided for the thread loosening plate 801, the original position can be returned after the rotation of the thread loosening plate 801, and the thread loosening mechanism is convenient to use next time.

Wire loosing plate 801 is connected to wire rope component 81 end, and last shaping of wire loosing plate 801 has a stirring portion 802, and this stirring portion 802 butt thread loosing ejector pin 804 of thread trapper 82, thread trimming mechanism 5 drives wire loosing plate 801 through wire rope component 81 and rotates when carrying out the thread trimming action, and wire loosing plate 801 promotes the thread loosing ejector pin through stirring portion 802, realizes the thread loosing operation.

The utility model relates to a connect cable wire subassembly 81 on thread trimming axle 505, drive the work of thread slacking mechanism 8 through cable wire subassembly 81, a first driving motor 4 of the same-purpose of the same direction of falling seam adjustment mechanism 6 and thread trimming mechanism 5 simultaneously, the realization realizes realizing the thread trimming function through a motor, thread slacking function and the three function of backstitch function, overall structure has been simplified, the probability that the reduction trouble takes place, the volume can be reduced to the sewing machine design of current relatively simultaneously, weight is lightened, and cost is reduced, and it is more simple and convenient to use.

The first shifting part 802 is a folded edge on the thread loosening plate 801, the first shifting part 802 can also be a triangular block, an inclined surface is formed between the folded edge and the thread loosening plate 801, and the inclined surface pushes the thread loosening ejector rod to move through rotation, so that the thread loosening ejector rod is pushed, and the thread loosening effect is achieved.

The head of the frame is also provided with a presser foot adjusting mechanism 9, the presser foot adjusting mechanism 9 comprises a second driving motor 11 and a driving sleeve 90, and the second driving motor 11 drives the presser foot rod 903 to move up and down through the driving sleeve 90; a toggle portion 931 is disposed at one side of the driving sleeve 90; when the driving sleeve 90 moves upward to a set position, the toggle portion 931 drives the thread releasing plate 801 to release threads.

An upper positioning retainer ring 901 is arranged at the upper part of the pressure pin rod 903, a lower positioning crank 902 is arranged at the lower part of the pressure pin rod 903, and a spring 906 and the driving sleeve 90 are sleeved on the pressure pin rod 903 between the upper positioning retainer ring 901 and the lower positioning crank 902; the upper end of the spring 906 is abutted against the lower side of the driving sleeve 90, and the lower end of the spring 906 is abutted against the lower positioning crank 902; the second driving motor 11 drives the driving sleeve 90 to vertically slide on the presser foot rod 903; when the driving sleeve 90 moves upwards, the upper positioning retainer ring 901 drives the presser foot rod 903; when the driving sleeve 90 moves downwards, the presser foot rod 903 is driven by the spring 906 and the lower positioning crank 902.

A magnetic component 904 is fixed on one side of the upper positioning retainer ring 901 or the lower positioning crank 902; a hall sensor 905 for sensing the magnetic component 904 is arranged on the frame.

When the driving sleeve 90 moves downwards, the driving sleeve is pressed on the spring, the lower end of the spring is pressed on the lower positioning crank 902 again, and the pressing pin rod 903 is indirectly driven to move downwards; when the driving sleeve moves upwards, the driving sleeve is directly pressed on the lower side of the upper positioning retainer ring 901 and then drives the presser bar 903 to move upwards; when the thickness of the cloth changes, the spring can automatically finely adjust the presser bar 903, so that the upper and lower fine adjustment of the presser bar is realized; meanwhile, the magnetic component 904 is fixed on the presser bar, the hall sensor 905 can timely identify the pressure change of the presser bar, and the system finely adjusts the second driving motor 11 according to the pressure change to realize the pressure increase or decrease.

The structure of the second driving motor 11 and the driving sleeve 90 is as follows: a gear part 95 is arranged on a motor shaft of the second driving motor 11, and a rack part 96 matched with the driving sleeve 90 is arranged on one side of the driving sleeve;

the backward and forward sewing adjusting mechanism 6 is used for adjusting the angle of the feeding swinging seat 61; the reverse and forward sewing adjusting mechanism 6 comprises a first crank 701 and a first connecting rod 702; the first crank 701 is fixed on the output shaft and rotates along with the output shaft, the outer end of the first crank 701 is hinged with a first connecting rod 702, and the other end of the first connecting rod 702 drives the feeding swinging seat 61;

the rotation region of the first crank 701 may be divided into a first regulation region a1, a second regulation region a2, a third regulation region A3, and a non-operating regulation region a 4; the non-working adjusting area A4 belongs to a blind area of the crank connecting rod mechanism; the first regulation area A1, the second regulation area A2 and the third regulation area A3 form a continuous sector area;

clockwise and counterclockwise as described below are based on the layout of the regions in fig. 3.

When the first crank 701 swings anticlockwise to the extreme position, the position of a hinge point p2 between the first crank 701 and the first connecting rod 702 is marked as a starting point b1 of the first adjusting area;

when the feeding swing seat 61 swings to zero needle pitch, the position of a hinge point p2 between the first crank 701 and the first connecting rod 702 is marked as an intersection point b2 of the first adjusting area and the second adjusting area;

when the rotation center p1 of the first crank 701, the hinge point p2 of the first crank 701 and the first connecting rod 702, and the hinge point p3 of the first connecting rod 702 and the feeding swing seat 61 swing to form a straight line, the position of the hinge point p2 of the first crank 701 and the first connecting rod 702 is marked as the intersection point b3 of the second adjusting area and the third adjusting area, and is also the maximum needle pitch position of one swing direction of the feeding swing seat 61;

when the first crank 701 swings clockwise to the extreme position, the position of a hinge point p2 between the first crank 701 and the first connecting rod 702 is marked as the end point b4 of the third adjusting zone;

the first regulation zone a1 and the second regulation zone a2 correspond to the backstitch or the main seam of the sewing machine; the intersection of the first adjusting area A1 and the second adjusting area A2 is a reverse sewing and forward sewing changing position, and the stitch distance of the position is zero. The larger the angle of the feeding swing seat 61 from the zero position, the larger the needle pitch.

When the first crank 701 is located in the first adjustment area a1 and the second adjustment area a2, the forward and backward stitch adjustment mechanism 7 is actively adjusted. Note that, as shown, the first regulation zone a1 is a positive slit, and the second regulation zone a2 is a negative slit; on an actual sewing machine, the first adjusting area A1 can be changed into a reverse seam, and the second adjusting area A2 can be changed into a forward seam by only arranging the hinge point p3 of the first connecting rod 702 and the feeding swing seat 61 at one side close to the feeding shaft 3; the present application does not specifically limit the first and second regulation zones a1 and a2 to correspond to the backstitch or the backstitch of the sewing machine.

During the process that the first crank 7012 enters the third adjusting area A3 from the second adjusting area a2, the needle pitch of the feeding swinging seat 618 gradually increases to the maximum needle pitch and then gradually decreases;

when the thread cutting mechanism 5 is in a position to cut the sewing thread, the first crank 701 is located within the third adjustment area a 3.

When the thread trimming mechanism 5 is at the initial position for executing the thread trimming action, the first crank 701 is located within a meeting point b3 ± 45 degrees of the second adjusting area and the third adjusting area; further, it is preferable that the meeting point b3 of the second regulation area and the third regulation area is within ± 20 degrees; the starting position of the thread cutting action can be set at the position of the junction b3 which is not passed through the second adjusting area and the third adjusting area, or can be set at the position of the junction b3 which is beyond the second adjusting area and the third adjusting area, but generally, the starting position is preferably set in the range of swinging 20 degrees towards two sides by taking the junction b3 of the second adjusting area and the third adjusting area as the center, when the second half of the thread cutting work can be achieved, the needle pitch is gradually reduced, otherwise, the feeding swinging seat 618 easily collides with the parts such as the feeding shaft 3 or the bedplate, and the effect that the thread cutting mechanism 5 and the backstitch mechanism share one second driving motor 11 cannot be achieved.

The thread trimming mechanism 5 includes:

a trimming cam 501 mounted on an output shaft of the first drive motor 4;

a third link 502 having a guide groove 503; the output shaft passes through the guide groove 503 and limits the third connecting rod 502;

the trimming cam 501 drives the third connecting rod 502 to move up and down along the effective stroke of the guide groove 503;

the lower end of the third link 502 drives the trimming swing arm 512 and the trimming shaft 505. It can be seen that the front end of shear spool 505 extends directly below the needle board and is connected to the shear assembly, simplifying many conventional structures such as electromagnets, cranks, linkages, etc., and reducing costs significantly.

Preferably, an upward reset pushing portion 506 and a downward trimming pushing portion 507 are arranged at one side of the third connecting rod 502; the trimming cam 501 is positioned between the upward reset pushing part 506 and the downward trimming pushing part 507; under the action of the reset torsion spring 508, the third connecting rod 502 keeps the upward-lifting movement trend, and the wire cutting cam 501 resets, so that the third connecting rod 502 can automatically reset under the action of the reset torsion spring 508; when the output shaft is rotated reversely and reset, under the condition that the reset torsion spring 508 of the thread trimming mechanism 5 is failed, the thread trimming cam 501 resets the thread trimming mechanism 5 forcibly through the upward reset pushing portion 506, and when the rotation angle of the output shaft enters the second adjusting area a, the thread trimming cam 501 is separated from the upward reset pushing portion 506.

The middle part of the thread cutting shaft 505 is provided with a thread releasing crank 80, the working end of the thread releasing crank 80 is hinged with one end of a steel cable component 81, and the steel cable component 81 is flexible and extends to the interior of the machine head from the lower part of the table plate through the machine frame 1. The thread loosening command is integrated on the thread cutting spool 505, the thread loosening action is completed while the thread is cut, the thread is stored for the next sewing, and the structure is further simplified. The bottom bracket is used to secure the outer jacket of the lower end of the cable assembly 81 from interfering with the remaining components.

Preferably, the first driving motor 4 and the second driving motor 11 are both stepping motors.

Preferably, the sum of the angles of the first regulation zone A1, the second regulation zone A2 and the third regulation zone A3 is 200 degrees or less.

Preferably, the sum of the angles of the first regulation zone A1, the second regulation zone A2 and the third regulation zone A3 is less than or equal to 120 degrees.

Generally, the common stitch length adjustment of the backstitch and the main stitch generally requires an interval of 40-60 degrees, and the thread trimming action also requires an interval of 50-60 degrees; within the range of 120 degrees, the motion of the backstitch mechanism and the thread trimming mechanism 5 can be completed compactly.

Preferably, the length of the working arm of the first crank 701 is less than or equal to the length/2 of the working arm of the first link 702. Within this range, the rotation center p1 of the first crank 701, the hinge point p2 of the first crank 701 and the first link 702, and the hinge point p3 of the first link 702 and the feeding swing seat 61 are connected to form a linear position. After exceeding the ratio, some sewing machines need to change the internal structure to avoid the feeding swing seat 61 from colliding with the internal parts. It should be noted that the conventional crank structure cannot be directly applied to the backstitch mechanism, the rotation center p1 of the first crank 701, the hinge point p2 between the first crank 701 and the first connecting rod 702, and the hinge point p3 between the first connecting rod 702 and the feeding swing seat 61 cannot be connected in a straight line, and the feeding swing seat 61 will touch the needle plate or the feeding shaft 3 or other components before the theoretical maximum needle pitch is reached, so that the sewing machine in the prior art is not suitable for the backstitch mechanism to add the thread cutting function.

Compare in common cam mechanism, the crank mechanism that this application adopted is a lot of less than cam mechanism's cost, and moreover, cam mechanism must rotate great angle and just can have sufficient stroke, leads to same instruction, and cam mechanism must rotate more angles, and the wearing and tearing aggravation is unfavorable for high-speed response.

Example 2:

this embodiment is substantially the same as embodiment 1, except that: as shown in fig. 13 to 14, the thread trimming mechanism 5 includes: a trimming crank 504 which is mounted on the output shaft of the first drive motor 4 and rotates therewith; the working end of the trimming crank 504 is provided with a pushing shaft 510;

a third link 502 having a guide groove 503; the output shaft passes through the guide groove 503 and limits the third connecting rod 502;

a hook 509 is disposed on one side of the third link 502, and the pushing shaft 510 is engaged with the hook 509 and drives the third link 502 to move up and down along the effective stroke of the guide groove 503.

Preferably, when the output shaft is rotated reversely and reset, in case that the reset torsion spring 508 of the thread cutting mechanism 5 fails, the pushing shaft 510 forcibly resets the thread cutting mechanism 5 through the hook 509; when the rotation angle of the output shaft enters the second regulation region a, the shaft 510 is pushed to disengage from the hook 509.

Example 3:

this embodiment is basically the same as embodiment 1, but differs therefrom in that: as shown in fig. 15, an eccentric wheel 99 is mounted on the output shaft of the second driving motor, a groove rail 907 is provided on one side of the driving sleeve 90, and the eccentric wheel 99 is placed in the groove rail 907. The output shaft of the second driving motor drives the eccentric wheel 99 to rotate in the groove rail 907 so as to drive the presser foot rod 903 to move. And with the drive rail isotructure that prior art seted up, the utility model discloses a processing is more simple and convenient.

Example 4: this embodiment is basically the same as embodiment 1, but differs therefrom in that: as shown in fig. 16, a crank 97 and a connecting rod 98 are mounted on the output shaft of the second driving motor, and the other end of the connecting rod 98 is hinged to a presser bar 903, so that the presser bar 903 moves up and down. Also, a magnetic component 904 is mounted to the lower positioning crank 902.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A novel sewing machine comprises a frame (1), a main shaft (2), a feeding shaft (3), a first driving motor (4), a second driving motor (11), a thread cutting mechanism (5), a reverse and forward sewing adjusting mechanism (6), a thread loosening mechanism (8) and a presser foot adjusting mechanism (9),

the first driving motor (4) drives the thread trimming mechanism (5), the backward and forward sewing adjusting mechanism (6) and the thread loosening mechanism (8);

the second driving motor (11) drives the presser foot adjusting mechanism (9) and the thread releasing mechanism (8);

it is characterized in that the preparation method is characterized in that,

a first stroke area (S1) of the rotation angle of the output shaft (7) of the first driving motor corresponds to the backward and forward seam adjusting mechanism (6),

a second stroke region (S2) of the rotation angle of the output shaft (7) of the first driving motor corresponds to the thread trimming mechanism (5) and the thread releasing mechanism (8), and the first stroke region (S1) and the second stroke region (S2) do not overlap;

a steel cable assembly (81) is mounted on a wire cutting shaft (505) of the wire cutting mechanism (5), the steel cable assembly (81) extends to the head of the rack and is connected with a wire loosening plate (801) to perform synchronous wire loosening during wire cutting;

the backward and forward seam adjusting mechanism (6) is arranged between the main shaft (2) and the feeding shaft (3) and is used for adjusting the rotating speed and the rotating direction of the feeding shaft (3);

the thread releasing mechanism (8) is arranged on the rack (1) and used for releasing the thread clamping device (82);

the presser foot adjusting mechanism (9) comprises a driving sleeve (90), and a second driving motor (11) drives a presser foot rod (903) to move up and down through the driving sleeve (90); a toggle part (931) is arranged on one side of the driving sleeve (90); when the driving sleeve (90) moves upwards to a set position, the poking part (931) drives the thread loosening plate (801) to loosen threads.

2. The novel sewing machine as claimed in claim 1, characterized in that an upper positioning retainer ring (901) is arranged at the upper part of the presser bar (903), a lower positioning crank (902) is arranged at the lower part of the presser bar (903), and a spring (906) and the driving sleeve (90) are sleeved on the presser bar (903) between the upper positioning retainer ring (901) and the lower positioning crank (902); the upper end of the spring (906) abuts against the lower side of the driving sleeve (90), and the lower end of the spring (906) abuts against the lower positioning crank (902); the second driving motor (11) drives the driving sleeve (90) to vertically slide on the presser foot rod (903); when the driving sleeve (90) moves upwards, the presser foot rod (903) is driven by the upper positioning retainer ring (901); when the driving sleeve (90) moves downwards, the pressure foot rod (903) is driven by the spring (906) and the lower positioning crank (902).

3. A new type of sewing machine according to claim 2, characterized in that a magnetic component (904) is fixed to one side of the upper retaining collar (901) or the lower retaining crank (902); and a Hall sensor (905) for sensing the magnetic component (904) is arranged on the rack.

4. A new type of sewing machine according to claim 1, characterized in that the cooperating structure of the second drive motor (11) and the driving sleeve (90) is:

a gear part (95) is installed on a motor shaft of the second driving motor (11), and a rack part (96) matched with the driving sleeve (90) is arranged on one side of the driving sleeve;

or a crank (97) and a connecting rod (98) are installed on a motor shaft of the second driving motor (11), and the other end of the connecting rod (98) is hinged with the presser foot rod (903);

or an eccentric wheel (99) is installed on a motor shaft of the second driving motor (11), a groove rail (907) matched with one side of the driving sleeve (90) is arranged on one side of the driving sleeve, and the eccentric wheel (99) is placed in the groove rail (907).

5. The sewing machine of claim 1, wherein the thread releasing plate (801) is formed with a driven portion (802) engaged with the striking portion (931); in the process that the driving sleeve (90) moves upwards, the wire loosening plate (801) is pulled to rotate, and the pulling part (931) drives the driven part (802) to push the wire clamping device (82) to loosen.

6. The novel sewing machine as claimed in claim 5, characterized in that the other side of the thread releasing plate (801) is provided with a pushing part (803), and the pushing part (803) is an inclined surface; and in the process that the pushing part (803) swings downwards, a top rod (804) of the wire clamping device is pushed.

7. The novel sewing machine as claimed in claim 1, characterized in that the feeding swing seat (61) in the forward and backward sewing adjusting mechanism (6) rotates around a set pin shaft, and the rotation angle of the feeding swing seat (61) around the pin shaft determines the needle pitch and the forward and backward sewing switching of the sewing machine; the backward and forward seam adjusting mechanism (6) comprises a first crank (701) and a first connecting rod (702); the first crank (701) is fixed on the output shaft (7) and rotates along with the output shaft, the outer end of the first crank (701) is hinged with a first connecting rod (702), and the other end of the first connecting rod (702) drives the feeding swinging seat (61);

the angle of rotation of the output shaft (7) can be divided into a first adjustment zone (A1), a second adjustment zone (A2) and a third adjustment zone (A3); the first regulation zone (A1), the second regulation zone (A2) and the third regulation zone (A3) form a continuous sector area;

when the output shaft (7) drives the first crank (701) to swing anticlockwise to an extreme position, the position of a hinge point (p2) of the first crank (701) and the first connecting rod (702) is marked as a starting point (b1) of the first adjusting area;

when the output shaft (7) drives the feeding swing seat (61) to swing to zero needle pitch, the position of a hinge point (p2) of the first crank (701) and the first connecting rod (702) is marked as an intersection point (b2) of the first adjusting area and the second adjusting area;

when the output shaft (7) drives the rotation center (p1) of the first crank (701), the hinge point (p2) of the first crank (701) and the first connecting rod (702), and the hinge point (p3) of the first connecting rod (702) and the feeding swinging seat (61) to be in a straight line, the position of the hinge point (p2) of the first crank (701) and the first connecting rod (702) is marked as an intersection point (b3) of a second adjusting area and a third adjusting area;

when the output shaft (7) drives the first crank (701) to swing clockwise to the extreme position, the position of a hinge point (p2) of the first crank (701) and the first connecting rod (702) is marked as a terminal point (b4) of the third adjusting area;

the first regulation zone (a1) and the second regulation zone (a2) correspond to the backstitch or the main seam of the sewing machine; when the output shaft (7) rotates to a first adjusting area (A1) and a second adjusting area (A2), the backward and forward seam adjusting mechanism (6) is actively adjusted;

in the process that the output shaft (7) drives the first crank (701) to enter a third adjusting area (A3) from a second adjusting area (A2), the needle pitch of the feeding swinging seat (61) is gradually increased to the maximum needle pitch and then gradually decreased;

when the thread cutting mechanism (5) is at a position for cutting off sewing threads, the output shaft (7) is positioned in the range of the third adjusting area (A3);

the first stroke region (S1) corresponding to the first regulation zone (A1) and the second regulation zone (A2),

the second stroke region (S2) corresponds to a third regulation zone (A3).

8. The novel sewing machine of claim 7, wherein:

when the thread trimming mechanism (5) is at the initial position for executing thread trimming action, the first crank (701) is positioned in the range of +/-45 degrees of the intersection point (b3) of the second adjusting area and the third adjusting area;

and in the process of cutting off the sewing thread by the thread cutting mechanism (5), the needle pitch of the feeding swing seat (61) is gradually reduced.

9. The novel sewing machine of claim 7, wherein:

when the thread trimming mechanism (5) is at the initial position for executing thread trimming action, the first crank (701) is positioned in the range of +/-20 degrees of the intersection point (b3) of the second adjusting area and the third adjusting area.

10. The new sewing machine of claim 1, wherein:

the thread trimming mechanism (5) comprises:

a trimming cam (501) mounted on an output shaft of the first drive motor (4);

a third link (502) having a guide groove (503); the output shaft penetrates through the guide groove (503) and limits the third connecting rod (502);

the trimming cam (501) drives the third connecting rod (502) to move up and down along the effective stroke of the guide groove (503);

the lower end of the third connecting rod (502) drives a trimming crank (504) and a trimming shaft (505);

an upward reset pushing part (506) and a downward trimming pushing part (507) are arranged on one side of the third connecting rod (502); the trimming cam (501) is positioned between the ascending reset pushing part (506) and the descending trimming pushing part (507); when the output shaft rotates reversely and resets, under the condition that a reset torsion spring (508) of the thread cutting mechanism (5) fails, the thread cutting cam (501) resets the thread cutting mechanism (5) forcibly through the upward reset pushing part (506), and when the rotation angle of the output shaft enters a second adjusting area (A2), the thread cutting cam (501) is separated from the upward reset pushing part (506).

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