CN215251624U - 360 rotatory equipment of making up - Google Patents

Abstract

The utility model discloses a 360 rotatory equipment of making up, including the aircraft nose, first motor, first speed reducer, first revolving stage, first mounting panel, first pneumoelectric slip ring, the rotating shuttle fixed station, the second motor, the second speed reducer, the second revolving stage, the second mounting panel, second pneumoelectric slip ring, first motor is installed at first speed reducer, first speed reducer is installed at first revolving stage, first revolving stage is equipped with first rotary disk, the aircraft nose is installed at first rotary disk through first mounting panel, the external pneumoelectric circuit with the aircraft nose is connected to first pneumoelectric slip ring, the second speed reducer is installed to the second motor, the second speed reducer is installed at the second revolving stage, first revolving stage is equipped with first rotary disk, the rotating shuttle fixed station is installed at the second rotary disk through the second mounting panel, the external pneumoelectric circuit with the rotating shuttle fixed station is connected to second pneumoelectric slip ring. The utility model has the advantages that: the working directions of the machine head and the rotating shuttle are consistent with the trend of the sewing thread, thereby realizing the tidiness and stability of the stitch and improving the quality of finished clothes.

Description

360 rotatory equipment of making up

Technical Field

The utility model relates to a garment machinery field is a 360 rotatory equipment of making up particularly.

Background

With the advance of the automation process in the field of sewing machines, in the prior art, a machine head and a rotating shuttle are driven to automatically work through a motor and a synchronous belt, a material pressing sewing mechanism is used for driving a cloth to move in a certain direction, so that a required line is sewn, but the sewing work is finished in such a way, when a sewing thread needs to turn, the material pressing sewing mechanism can drive the cloth to move in a corresponding direction, so that the sewing thread appears in a corresponding position, but the machine head and the rotating shuttle fixing table cannot rotate, so that the trend of the sewing thread is inconsistent with the working direction of the machine head and the rotating shuttle, the stitch after turning is very messy compared with the previous stitch, and the quality of clothes is influenced.

SUMMERY OF THE UTILITY MODEL

To the above defect, the utility model provides a 360 rotatory equipment of making up drives the aircraft nose through first revolving stage and rotates towards 360 degrees arbitrary directions, drives the rotating shuttle fixed station through the second revolving stage and rotates towards 360 arbitrary directions to the direction of work that makes aircraft nose and rotating shuttle is unanimous with the trend of suture all the time, guarantees the unanimity of the stitch seam of each direction, has realized the neatly and stable of stitch seam, has improved the quality of finished product clothes.

The technical scheme of the utility model is that:

a sewing apparatus rotating 360 DEG, comprising a rotary head mechanism, a rotary hook mechanism, wherein:

the rotary machine head mechanism comprises a machine head, a first motor, a first speed reducer, a first rotary table, a first mounting plate, a lifting device and a first gas-electric slip ring, wherein the lifting device is mounted on the first rotary table;

the rotary rotating shuttle mechanism comprises a rotating shuttle fixing table, a second motor, a second speed reducer, a second rotating table, a second mounting plate and a second gas-electric slip ring, the second motor is arranged on the second speed reducer, the second speed reducer is arranged on the second rotating table, the second rotating table is provided with a second rotating disc, a gear transmission device is arranged in the second rotating table, the second speed reducer drives the second rotating disc to rotate through the gear transmission device, the rotating shuttle fixing table is arranged on the second rotating disc through the second mounting plate, a through hole is formed in the second rotating table, the second gas-electric slip ring penetrates through the through hole and is arranged on the second mounting plate, and the second gas-electric slip ring is connected with a gas-electric circuit between the outside and the rotating shuttle fixing table;

the first motor and the second motor intelligently control the rotating speed through the circuit board.

Preferably, the machine head is provided with a third motor, a belt transmission device and a needle, the belt transmission device comprises a first driving wheel, a first belt and a first driven wheel, the third motor drives the first driving wheel to rotate, the first belt transmits kinetic energy of the first driving wheel to the first driven wheel so as to drive the first driven wheel to rotate, the first driven wheel drives the needle to reciprocate up and down, and the kinetic energy of the motor is transmitted to the needle through the belt transmission device so as to enable the needle to work automatically; the rotating shuttle fixing table is provided with a fourth motor, a belt transmission device, a rotating shuttle frame and a rotating shuttle, the belt transmission device comprises a second driving wheel and a second belt, the second is driven by a driving wheel, the rotating shuttle is installed at one end of the rotating shuttle frame, the other end of the rotating shuttle frame is connected with the second driven wheel, the fourth motor drives the second driving wheel to rotate, the second belt transmits kinetic energy of the second driving wheel to the second driven wheel, the second driven wheel is driven to rotate, the second driven wheel drives the rotating shuttle to rotate through the rotating shuttle frame, and therefore the rotating shuttle is matched with a machine needle to automatically perform sewing work.

Preferably, the third motor and the fourth motor pass through circuit board intelligent control rotational speed, guarantee that eedle and rotating shuttle can cooperate and accomplish the work of making up, can not miss the needle.

Preferably, the lifting device comprises a lifting cylinder, a sliding rail, a sliding block and a lifting platform, the lifting cylinder is connected with the lifting platform through a piston rod, the sliding block is installed on the lifting platform, the sliding block is fixed on the sliding rail, and the lifting cylinder drives the lifting platform and the sliding block to do lifting motion a on the sliding rail through the piston rod.

Preferably, all be provided with the bed hedgehopping post on the first mounting panel and on the second mounting panel, be provided with the screw on the bed hedgehopping post, first pneumoelectric slip ring and second pneumoelectric slip ring pass through the screw and install on the bed hedgehopping post with the screw cooperation.

Preferably, the bed hedgehopping post is fixed on first mounting panel and second mounting panel through the welded mode, can guarantee that the bed hedgehopping post is fixed firm, can not drop.

Preferably, the two sides of the first mounting plate are provided with screw holes, one side of the first mounting plate is installed on the first rotating disk in a screw and screw hole matching mode, the other side of the first mounting plate is installed on the handpiece in a screw and screw hole matching mode, and the first mounting plate can be guaranteed to be fixed firmly through screw and screw hole matching fixation and is not prone to falling.

Preferably, both sides of the second mounting panel all are provided with the screw, and the one side of second mounting panel is installed on the second rotary disk through screw and screw cooperation, and the another side of second mounting panel is installed on the rotating shuttle fixed station through screw and screw cooperation, and the second rotary disk is connected together with the rotating shuttle fixed station to the second mounting panel, and it is fixed firm to guarantee that the second mounting panel is fixed through screw and screw cooperation, is difficult to drop.

Preferably, the inside hollow structure that is of first mounting panel, first mounting panel side is provided with the opening, the gas-electric circuit of aircraft nose gets into first mounting panel from the opening part of first mounting panel side, passes the inside line connection with first gas-electric slip ring of first mounting panel, and rethread first gas-electric slip ring and external intercommunication, the hollow structure and the side opening of first mounting panel can make the circuit of gas-electric slip ring flow from first mounting panel, receive corresponding structurally again, and such setting can save space, and it is pleasing to the eye to increase the product.

Preferably, a gap is formed between the second mounting plate and the rotating shuttle fixing table, and an air-electric circuit of the rotating shuttle fixing table penetrates through the gap between the second mounting plate and the rotating shuttle fixing table and is connected with a circuit of the second air-electric slip ring and then communicated with the outside through the second air-electric slip ring, so that the air-electric circuit is clear and attractive.

The utility model has the advantages that:

the utility model discloses be provided with first revolving stage and aircraft nose, be provided with first rotary disk on the first revolving stage, the aircraft nose is installed on first rotary disk through first mounting panel, and when first motor and first speed reducer passed through gear drive and drives first rotary disk and rotate, can drive first mounting panel and aircraft nose and rotate. The utility model discloses be provided with second revolving stage and rotating shuttle fixed station, be provided with the second rotary disk on the second revolving stage, the rotating shuttle fixed station passes through the second mounting panel to be installed on the second rotary disk, when second motor and second speed reducer pass through gear drive and drive the second rotary disk and rotate, can drive the second mounting panel and rotate with the rotating shuttle fixed station, first motor and second motor pass through circuit board intelligent control rotational speed in addition, can guarantee that aircraft nose and rotating shuttle fixed station are rotatory to suitable angle cooperation work.

In order to solve the connection problem of the gas-electric line of aircraft nose and rotating shuttle fixed station, the utility model discloses be provided with the gas-electric slip ring, be provided with stator and rotor on the gas-electric slip ring, can be with the gas-electric line from the stator input, transmit to the rotor in, on reconnection aircraft nose and rotating shuttle fixed station, the aircraft nose and rotating shuttle fixed station synchronous revolution can be followed to the rotor, and the stator can not rotate, when can guaranteeing aircraft nose and rotating shuttle fixed station rotation, the gas-electric line can not block and tie a knot, guarantees the stability of gas-electric transmission.

The utility model is suitable for a sewing work of the suture that need turn round on the clothing, when the suture need turn round, press material sewing mechanism to drag the cloth to the direction removal that corresponds, first motor drives the first rotary disk rotation on the first revolving stage, the second motor drives the second rotary disk rotation on the second revolving stage, thereby it is rotatory to drive the aircraft nose and revolve the shuttle fixed station, the direction that makes the aircraft nose and revolve the shuttle still keeps unanimous with the direction of suture, thereby guarantee to turn round before and the uniformity of the suture after turning round, the suture stitch that makes finished product clothing keeps neat and stable, the quality of clothes has been improved.

To sum up, compared with the prior art, the utility model provides a pair of 360 rotatory equipment of making up can make the direction of operation of aircraft nose and rotating shuttle unanimous with the trend of suture all the time, guarantees the unanimity of the stitch seam of each direction, has realized the regularity and the stability of stitch seam, has improved the quality of finished product clothes.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall structure of the middle rotary machine head mechanism of the present invention;

FIG. 3 is a schematic view of an exploded structure of a middle rotary machine head mechanism of the present invention;

fig. 4 is a schematic view of the overall structure of the rotary shuttle mechanism of the present invention;

fig. 5 is a schematic side view of the rotary shuttle mechanism of the present invention;

fig. 6 is an exploded schematic view of the rotary shuttle mechanism of the present invention;

fig. 7 is a sectional view of the mounting structure of the gas-electric slip ring in the middle rotary machine head mechanism of the present invention.

Detailed Description

In order that those skilled in the art can better understand the technical solutions provided by the present invention, the following description is provided in connection with specific embodiments.

Referring to fig. 1-7, fig. 1 is a schematic view of the overall structure of the present invention; fig. 2 is a schematic view of the overall structure of the middle rotary machine head mechanism of the present invention; FIG. 3 is a schematic view of an exploded structure of a middle rotary machine head mechanism of the present invention; fig. 4 is a schematic view of the overall structure of the rotary shuttle mechanism of the present invention; fig. 5 is a schematic side view of the rotary shuttle mechanism of the present invention; fig. 6 is an exploded schematic view of the rotary shuttle mechanism of the present invention; fig. 7 is a sectional view of the mounting structure of the gas-electric slip ring in the middle rotary machine head mechanism of the present invention.

An embodiment of the utility model provides a 360 rotatory equipment of making up, the part name that each reference numeral corresponds in the picture as follows: the pneumatic-electric slip ring device comprises a machine head 1, a first motor 2, a first speed reducer 3, a first rotating platform 4, a first mounting plate 5, a first pneumatic-electric slip ring 6, a first rotating disk 7, a rotating shuttle fixing platform 8, a second motor 9, a second speed reducer 10, a second rotating platform 11, a second mounting plate 12, a second pneumatic-electric slip ring 13, a second rotating disk 14, a third motor 15, a first driving wheel 16, a first belt 17, a first driven wheel 18, a lifting cylinder 19, a sliding rail 20, a sliding block 21, a lifting platform 22, a piston rod 23, a fourth motor 24, a second driving wheel 25, a second belt 26, a second driven wheel 27, a rotating shuttle 28 and a heightening column 29.

A sewing apparatus rotating 360 DEG, comprising a rotary head mechanism, a rotary hook mechanism, wherein:

the rotary machine head mechanism comprises a machine head 1, a first motor 2, a first speed reducer 3, a first rotary table 4, a first mounting plate 5, a lifting device and a first gas-electric slip ring 6, wherein the lifting device is mounted on the first rotary table 4, the first motor 2 is mounted on the first speed reducer 3, the first speed reducer 3 is mounted on the first rotary table 4, a first rotary disc 7 is arranged on the first rotary table 4, a gear transmission device is arranged in the first rotary table 4, the first speed reducer 3 drives the first rotary disc 7 to rotate through the gear transmission device, the machine head 1 is mounted on the first rotary disc 7 through the first mounting plate 5, a through hole is formed in the first rotary table 4, the first gas-electric slip ring 6 penetrates through the through hole and is mounted on the first mounting plate 5, and the first gas-electric slip ring 6 is connected with a gas-electric circuit between the outside and the machine head 1;

the rotary rotating shuttle mechanism comprises a rotating shuttle fixing table 8, a second motor 9, a second speed reducer 10, a second rotating table 11, a second mounting plate 12 and a second gas-electric slip ring 13, the second motor 9 is mounted on the second speed reducer 10, the second speed reducer 10 is mounted on the second rotating table 11, a second rotating disc 14 is arranged on the second rotating table 11, a gear transmission device is arranged in the second rotating table 11, the second speed reducer 10 drives the second rotating disc 14 to rotate through the gear transmission device, the rotating shuttle fixing table 8 is mounted on the second rotating disc 14 through the second mounting plate 12, a through hole is formed in the second rotating table 11, the second gas-electric slip ring 13 penetrates through the through hole and is mounted on the second mounting plate 12, and the second gas-electric slip ring 13 is connected with a gas-electric circuit between the outside and the rotating shuttle fixing table 8.

The machine head 1 is provided with a third motor 15, a belt transmission device and a needle, the belt transmission device comprises a first driving wheel 16, a first belt 17 and a first driven wheel 18, the third motor 15 drives the first driving wheel 16 to rotate, the first belt 17 transmits kinetic energy of the first driving wheel 16 to the first driven wheel 18 so as to drive the first driven wheel 18 to rotate, the first driven wheel 18 drives the needle to do up-and-down reciprocating motion, and the kinetic energy of the motor is transmitted to the needle through the belt transmission device so that the needle automatically works; the rotating shuttle fixing table 8 is provided with a fourth motor 24, a belt transmission device, a rotating shuttle frame and a rotating shuttle 28, the belt transmission device comprises a second driving wheel 25, a second belt 26, a second driven wheel 27, the rotating shuttle 28 is installed at one end of the rotating shuttle frame, the other end of the rotating shuttle frame is connected with the second driven wheel 27, the fourth motor 24 drives the second driving wheel 25 to rotate, the second belt 26 transmits the kinetic energy of the second driving wheel 25 to the second driven wheel 27, so that the second driven wheel 27 is driven to rotate, the second driven wheel 27 drives the rotating shuttle 28 to rotate through the rotating shuttle frame, and therefore the rotating shuttle 28 is matched with a machine needle to automatically carry out sewing work.

The third motor 15 and the fourth motor 24 intelligently control the rotating speed through a circuit board, so that the sewing work can be completed by matching the machine needle with the rotating shuttle 28, and the wrong needle can not be caused.

The lifting device comprises a lifting cylinder 19, a sliding rail 20, a sliding block 21 and a lifting platform 22, the lifting cylinder 19 is connected with the lifting platform 22 through a piston rod 23, the sliding block 21 is installed on the lifting platform 22, the sliding block 21 is fixed on the sliding rail 20, and the lifting cylinder 19 drives the lifting platform 22 and the sliding block 21 to do lifting motion a on the sliding rail 20 through the piston rod 23.

All be provided with bed hedgehopping post 29 on first mounting panel 5 and on the second mounting panel 12, be provided with the screw on the bed hedgehopping post 29, first gas electric slip ring 6 and second gas electric slip ring 13 pass through the screw and the cooperation of screw is installed on bed hedgehopping post 29.

The heightening column 29 is fixed on the first mounting plate 5 and the second mounting plate 12 in a welding mode, so that the heightening column 29 can be firmly fixed and cannot fall off.

The two sides of first mounting panel 5 all are provided with the screw, and the one side of first mounting panel 5 is passed through the screw and is installed on first rotary disk 7 with the screw cooperation, and the another side of first mounting panel 5 passes through the screw and the screw cooperation is installed on aircraft nose 1, through the fixed first mounting panel 5 of screw and screw cooperation, can guarantee that first mounting panel 5 is fixed firm, is difficult to drop.

Both sides of second mounting panel 12 all are provided with the screw, and the one side of second mounting panel 12 is installed on second rotary disk 14 through screw and screw cooperation, and the another side of second mounting panel 12 is installed on rotating shuttle fixed station 8 through screw and screw cooperation, and second mounting panel 12 links together second rotary disk 14 and rotating shuttle fixed station 8, through screw and screw cooperation fixed second mounting panel 12, can guarantee that second mounting panel 12 is fixed firm, is difficult to drop.

The inside hollow structure that is of first mounting panel 5, 5 sides of first mounting panel are provided with the opening, and the gas-electric circuit of aircraft nose 1 gets into first mounting panel 5 from the opening part of 5 sides of first mounting panel, passes the inside line connection with first gas-electric slip ring 6 of first mounting panel 5, and the rethread first gas-electric slip ring 6 communicates with the external world, and such setting can save space, and it is pleasing to the eye to increase the product.

There is the space between second mounting panel 12 and the rotating shuttle fixed station 8, and the gas electric circuit of rotating shuttle fixed station 8 passes from the space between second mounting panel and the rotating shuttle fixed station 8, with the line connection of second gas electric slip ring 13, rethread second gas electric slip ring 13 and external intercommunication, can make the gas electric circuit clear pleasing to the eye.

The utility model discloses an use and working method do:

install first motor 2 on first speed reducer 3, install first speed reducer 3 on first revolving stage 4, install elevating gear on first revolving stage 4, fix bed hedgehopping post 29 on first mounting panel 5 through welded installation, install the one side of first mounting panel 5 on first rotary disk 7 through screw and screw cooperation, install the another side of first mounting panel 5 on aircraft nose 1 through screw and screw cooperation, install first pneumoelectric slip ring 6 on first mounting panel 5 through the through-hole of first rotary disk 7, the pneumoelectric circuit of aircraft nose 1 links to each other with the external world through first pneumoelectric slip ring 6.

The second motor 9 is installed on the second speed reducer 10, the second speed reducer 10 is installed on the second rotating platform 11, the heightening column 29 is fixed on the second installing plate 12 in a welding mode, one surface of the second installing plate 12 is installed on the second rotating disk 14 through the matching of a screw and a screw hole, the other surface of the second installing plate 12 is installed on the rotating shuttle fixing platform 8 through the matching of the screw and the screw hole, the second gas-electric slip ring 13 penetrates through a through hole of the second rotating disk 14 and is installed on the second installing plate 12, and a gas-electric circuit of the rotating shuttle fixing platform 8 is connected with the outside through the second gas-electric slip ring 13.

In the automatic sewing process of the sewing machine, when a sewing line needs to turn, the material pressing and sewing mechanism drags the cloth to move towards the sewing line direction, the first motor 2 works to transmit kinetic energy to the first speed reducer 3, the first speed reducer 3 transmits the kinetic energy to the first rotating disc 7 through the first rotating table 4, and the first rotating disc 7 rotates to drive the machine head 1 to rotate; meanwhile, the second motor 9 works to transmit kinetic energy to the second speed reducer 10, the second speed reducer 10 transmits the kinetic energy to the second rotating disk 14 through the second rotating platform 11, the second rotating disk 14 rotates to drive the rotating shuttle fixing platform 8 to rotate, and the first motor 2 and the second motor 9 intelligently control the rotating speed through the circuit board, so that the machine head 1 and the rotating shuttle fixing platform 8 can be guaranteed to rotate to work in the direction consistent with the trend of the sewing thread.

The utility model has the advantages that:

the utility model discloses be provided with first revolving stage 4 and aircraft nose 1, be provided with first rotary disk 7 on the first revolving stage 4, aircraft nose 1 is installed on first rotary disk 7 through first mounting panel 5, and when first motor 2 and first speed reducer 3 drive first rotary disk 7 through gear drive and rotate, can drive first mounting panel 5 and aircraft nose 1 and rotate. The utility model discloses be provided with second revolving stage 11 and rotating shuttle fixed station 8, be provided with second rotary disk 14 on the second revolving stage 11, rotating shuttle fixed station 8 passes through second mounting panel 12 and installs on second rotary disk 14, when second motor 9 and second speed reducer 10 drive second rotary disk 14 through gear drive and rotate, can drive second mounting panel 12 and rotate rotating shuttle fixed station 8, and first motor 2 and second motor 9 pass through circuit board intelligent control rotational speed, can guarantee that aircraft nose 1 and rotating shuttle fixed station 8 rotate to suitable angle cooperation work.

In order to solve the connection problem of the pneumoelectric circuit of aircraft nose 1 and rotating shuttle fixed station 8, the utility model discloses be provided with first pneumoelectric slip ring 6 and second pneumoelectric slip ring 13, be provided with stator and rotor on the pneumoelectric slip ring, can be with the pneumoelectric circuit from the stator input, transmit in the rotor, on reconnection aircraft nose 1 and rotating shuttle fixed station 8, aircraft nose 1 and rotating shuttle fixed station 8 synchronous revolution can be followed to the rotor, and the stator can not rotate, can guarantee when aircraft nose 1 and rotating shuttle fixed station 8 are rotatory, the pneumoelectric circuit can not block and tie a knot, guarantee the stability of pneumoelectric transmission.

The utility model is suitable for a sewing work of the suture that need turn round on the clothing, when the suture need turn round, press the material to make up the mechanism and pull the cloth and remove to the direction that corresponds, first motor 2 drives first rotary disk 7 on the first revolving stage 4 rotatory, second motor 9 drives second rotary disk 14 on the second revolving stage 11 rotatory, thereby it is rotatory to drive aircraft nose 1 and revolve shuttle fixed station 8, make aircraft nose 1 and the direction of revolving shuttle 28 and the direction of suture still keep unanimous, thereby guarantee to turn round before and the uniformity of the suture after turning round, the suture stitch that makes the finished product clothing keeps neat and stable, the quality of clothes has been improved.

Compared with the prior art, the utility model provides a pair of 360 rotatory equipment of making up, the direction of operation of aircraft nose and rotating shuttle is unanimous with the trend of suture all the time, guarantees the unanimity of the stitch seam of each direction, has realized the neatly and the stability of stitch seam, has improved the quality of finished product clothes.

The above is only a preferred embodiment of the present invention, and it should be noted that the above preferred embodiment should not be considered as limiting the present invention, and the protection scope of the present invention should be subject to the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the spirit and scope of the invention, and such modifications and enhancements are intended to be within the scope of the invention.

Claims (10)

1. A sewing machine capable of rotating 360 degrees is characterized by comprising a rotary machine head mechanism and a rotary rotating shuttle mechanism, wherein:

the rotary machine head mechanism comprises a machine head, a first motor, a first speed reducer, a first rotary table, a first mounting plate, a lifting device and a first gas-electric slip ring, wherein the lifting device is mounted on the first rotary table, the first motor is mounted on the first speed reducer, the first speed reducer is mounted on the first rotary table, a first rotary disc is arranged on the first rotary table, a gear transmission device is arranged in the first rotary table, the first speed reducer drives the first rotary disc to rotate through the gear transmission device, the machine head is mounted on the first rotary disc through the first mounting plate, a through hole is formed in the first rotary table, the first gas-electric slip ring penetrates through the through hole and is mounted on the first mounting plate, and the first gas-electric slip ring is connected with a gas-electric circuit between the outside and the machine head;

the rotary rotating shuttle mechanism comprises a rotating shuttle fixing table, a second motor, a second speed reducer, a second rotating table, a second mounting plate and a second gas-electric sliding ring, the second motor is mounted on the second speed reducer, the second speed reducer is mounted on the second rotating table, a second rotating disc is arranged on the second rotating table, a gear transmission device is arranged in the second rotating table, the second speed reducer drives the second rotating disc to rotate through the gear transmission device, the rotating shuttle fixing table is mounted on the second rotating disc through the second mounting plate, a through hole is formed in the second rotating table, the second gas-electric sliding ring penetrates through the through hole and is mounted on the second mounting plate, and the second gas-electric sliding ring is connected with a gas-electric circuit between the outside and the rotating shuttle fixing table;

the first motor and the second motor intelligently control the rotating speed through a circuit board.

2. A sewing machine with 360-degree rotation according to claim 1, wherein a third motor, a belt transmission device and a needle are arranged on the machine head, the belt transmission device comprises a first driving wheel, a first belt and a first driven wheel, the third motor drives the first driving wheel to rotate, the first belt transmits kinetic energy of the first driving wheel to the first driven wheel so as to drive the first driven wheel to rotate, and the first driven wheel drives the needle to do up-and-down reciprocating motion; the rotating shuttle fixing table is provided with a fourth motor, a belt transmission device, a rotating shuttle frame and a rotating shuttle, the belt transmission device comprises a second driving wheel, a second belt and a second driven wheel, the rotating shuttle is installed at one end of the rotating shuttle frame, the other end of the rotating shuttle frame is connected with the second driven wheel, the fourth motor drives the second driving wheel to rotate, the second belt transmits kinetic energy of the second driving wheel to the second driven wheel so as to drive the second driven wheel to rotate, and the second driven wheel drives the rotating shuttle to rotate through the rotating shuttle frame.

3. A360 ° rotary sewing apparatus as claimed in claim 2, wherein the third motor and the fourth motor are intelligently speed controlled by a circuit board.

4. The sewing machine capable of rotating by 360 degrees according to claim 1, wherein the lifting device comprises a lifting cylinder, a slide rail, a slide block and a lifting table, the lifting cylinder is connected with the lifting table through a piston rod, the slide block is installed on the lifting table, the slide block is fixed on the slide rail, and the lifting cylinder drives the lifting table and the slide block to do lifting movement on the slide rail through the piston rod.

5. A360 DEG rotary sewing machine according to claim 1, wherein the first mounting plate and the second mounting plate are provided with a raising column, the raising column is provided with a screw hole, and the first gas-electric slip ring and the second gas-electric slip ring are mounted on the raising column through the cooperation of a screw and the screw hole.

6. A360 ° rotary sewing apparatus according to claim 5, wherein the padding columns are fixed to the first and second mounting plates by welding.

7. A360 DEG rotary sewing machine according to claim 1, wherein the first mounting plate is provided with screw holes on both sides thereof, one side of the first mounting plate is mounted on the first rotary disk by means of screws and screw holes, and the other side of the first mounting plate is mounted on the machine head by means of screws and screw holes.

8. A 360 ° rotary sewing apparatus, as claimed in claim 1, wherein the second mounting plate has screw holes on both sides thereof, one side of the second mounting plate is mounted on the second rotary plate by means of screws and screw holes, and the other side of the second mounting plate is mounted on the rotary hook fixing table by means of screws and screw holes, and the second mounting plate connects the second rotary plate and the rotary hook fixing table together.

9. The sewing machine capable of rotating by 360 degrees as claimed in claim 1, wherein the inside of the first mounting plate is hollow, the side of the first mounting plate is provided with an opening, and the gas-electric circuit of the machine head enters the first mounting plate from the opening of the side of the first mounting plate, passes through the inside of the first mounting plate and is connected with the circuit of the first gas-electric slip ring, and then is communicated with the outside through the first gas-electric slip ring.

10. A360 DEG rotary sewing machine according to claim 1, wherein a gap is provided between the second mounting plate and the rotary shuttle fixing table, and the pneumatic circuit of the rotary shuttle fixing table passes through the gap between the second mounting plate and the rotary shuttle fixing table, is connected with the circuit of the second pneumatic-electric slip ring, and is communicated with the outside through the second pneumatic-electric slip ring.

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