CN115074919B

CN115074919B - Multi-track automatic tailor production line

Info

Publication number: CN115074919B
Application number: CN202210851793.2A
Authority: CN
Inventors: 袁贤苗; 安蓓蕾; 吕槿艾
Original assignee: Meisheng Culture & Creative Corp ltd
Current assignee: Meisheng Culture & Creative Corp ltd
Priority date: 2022-07-20
Filing date: 2022-07-20
Publication date: 2023-09-08
Anticipated expiration: 2042-07-20
Also published as: CN115074919A

Abstract

The invention discloses a multi-track automatic tailor production line, which comprises a feeding box and a fixed guide frame, wherein one side of the feeding box is hollowed out, an opening is in a shape facing the sky, a distributing component is arranged at one side of the opening of the feeding box, a blowing component for lifting multi-layer cloth is arranged in the feeding box, the multi-track automatic tailor production line sends the cloth between a high plate and a low plate to a receiving plate through an electric sliding rail, then the receiving plate is driven to lift through a first cylinder, when the receiving plate lifts, a driving rod is driven to drive a flat plate to smooth the multi-layer cloth through a fourth cylinder conveying rod, a suction pump is opened to generate negative pressure inside a rotary suction disc, and as the negative pressure inside the rotary suction disc at two sides of the feeding box adsorbs and fixes two sides of the cloth, the cloth at the bottom layer cannot be misplaced when the cloth at the uppermost layer is adsorbed by the suction disc, and the improved quality control is realized.

Description

Multi-track automatic tailor production line

Technical Field

The invention relates to the technical field of textile sewing equipment, in particular to a multi-track automatic tailor production line.

Background

A Sewing machine (Sewing machine) is a machine that uses one or more Sewing threads to form one or more stitches on a material to interweave or stitch one or more layers of material.

The sewing machine can sew cotton, hemp, silk, wool, artificial fiber and other fabrics, leather, plastic, paper and other products, and the sewn stitch is neat, beautiful, flat, firm, fast in sewing speed and simple and convenient to use. And the artistic forms of hand-push embroidery, computerized embroidery and the like are derived from the hand-push embroidery.

In order to increase the yield, the prior art discloses a full-automatic sewing machine, and an electric sewing machine is a perfect combination of a traditional sewing machine and a modern intelligent electronic technology, is a necessary sewing tool for a modern housewife, is also a necessary garment sewing device for a modern garment enterprise, and can help people to efficiently and safely finish sewing work.

The cloth feeding teeth and the presser foot are matched to convey forwards in a walking mode, upper and lower layers of cloth are overlapped together at the bottom of the presser foot during sewing, the upper layer of cloth is sewn together through an automatic sewing machine, the upper layer of cloth is spliced together through a sucking disc mechanism, due to the fact that materials used in production are different, the positions of threads on some cloth are different, sucking disc suction is insufficient, material lifting is affected, sucking disc suction is overlarge, gas penetrates through cloth, cloth on the second layer is adsorbed at the same time, the reason is that the cloth is different in all parts of some cloth, therefore when sucking disc suction is too small, the positions of threads on the cloth cannot be penetrated, the positions of other cloth on the bottom of the cloth can be affected when suction is increased, the positions of other cloth on the bottom of the cloth can be misplaced when the sucked bottom cloth are misplaced, the sucking disc cannot enable the cloth to be misplaced between the cloth feeding teeth and the bottom cloth when the sucking disc is conveyed beside the cloth, the upper layer cloth and the bottom cloth are misplaced, when the machine carries out sewing, the sewing effect of the upper layer cloth and the needle thread is required to be controlled, and the manual sewing is required to be poor, and the manual sewing effect is required to be controlled. For this purpose, we propose a multi-track automatic tailor line.

Disclosure of Invention

The invention aims to provide a multi-track automatic tailor production line to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multi-track automatic tailor production line comprises a feeding box and a fixed guide frame, wherein one side of the feeding box is hollow and is provided with an opening in a heaven shape, a material distributing component is arranged at one side of the opening of the feeding box, and a material blowing component for lifting multi-layer cloth is arranged in the feeding box; the blowing assembly comprises a movable plate arranged at the opening of the feeding box, a second transmission rod fixed on the movable plate, and a blowing machine joint connected to the blowing pump through a pipeline, wherein the second transmission rod is connected with a driving mechanism to enable the blowing machine joint to be close to or far away from the side surface of the multi-layer cloth; the material distribution assembly comprises external shells arranged on two sides of an opening of the material loading box, rotary suction cups which are rotatably connected to each external shell and are connected with a suction pump through pipelines, and sealing rollers fixed inside the rotary suction cups, and a calibration strip is arranged on one side of the material loading box; wherein be equipped with the air vent on every stabilizer blade of rotatory sucking disc, adsorb multilayer cloth layering when the stabilizer blade is rotatory when being located the calibration strip, the stabilizer blade is not ventilated, prevents that two cloth of laminating each other from being in the same place, brings the trouble for production.

Preferably, the fixed guide frame top is hung and is equipped with the drive slide rail, and the drive slide rail bottom is hung and is equipped with the material loading machine, and the material loading machine bottom is equipped with the sucking disc, and a plurality of breathing pipes are installed at the sucking disc top, and the material loading machine is equipped with the articulated lever in every breathing pipe next door, and the material loading machine is all installed the third cylinder in every corner, and a plurality of articulated levers are articulated together with the material loading machine, and the articulated lever activity of third cylinder output rod drive, stability when strengthening the cloth transportation, stable cloth transportation.

Preferably, the driving mechanism comprises a fourth cylinder arranged at the inner top of the feeding box, a driving rod fixed on an output rod of the fourth cylinder, a connecting shaft arranged at the middle part of the driving rod, and a first transmission rod in sliding connection with the driving rod through a rotating shaft, wherein the driving rod is in sliding connection with the first transmission rod and the second transmission rod through the connecting shaft, so that intermittent transmission of the first transmission rod and the second transmission rod is facilitated, and cloth is convenient and stable.

Preferably, the automatic feeding structure of material loading case internally mounted, automatic feeding structure is including locating the electronic slide rail in the material loading case outside, fix the fixed plate on electronic slider of electronic slide rail, fix the hypoplastron in fixed plate one side, a pair of spring of locating on the hypoplastron, fix the high board in spring one end, and with a pair of slide bar sliding connection's regulation pole, a plurality of mounting holes have all been seted up to the hypoplastron both sides, this mounting hole and slide bar external diameter assorted help the multilayer cloth to lay, reduce the cloth and put in the number of times.

Preferably, a smoothing plate is arranged at one end of the first transmission rod, a first cylinder is arranged at the bottom of the opening of the feeding box, a material receiving plate is fixedly connected with the output rod of the first cylinder, a plurality of production claws are arranged at the bottom of the smoothing plate, a production groove matched with the outer diameter of the production claw is formed in the top of the material receiving plate, a transition bin is arranged at the outer side of the feeding box, the transition bin is in equal-height parallel with an electric sliding rail, and the cloth at the bottommost layer of the material receiving plate cannot be flush with the edge of the cloth at a high layer in the process of conveying the cloth.

Preferably, the main conveyor belt is arranged outside the feeding box, the sub conveyor belts are respectively arranged on two sides of the main conveyor belt, a pair of conveying platforms are arranged at one end of the main conveyor belt far away from the feeding box, and each conveying platform is provided with a sewing machine, and the multi-track is favorable for sewing and enriching clothes and clothing decoration.

Preferably, each conveying platform is provided with a flattening component at the edge close to the sewing machine, the flattening component comprises a second cylinder arranged on the side face of the conveying platform, a pressing sheet is fixed on an output rod of the second cylinder, and two groups of sliding beads are respectively fixed on two sides of the pressing sheet, so that edge warping phenomenon caused by shaking of the edge of the cloth when cloth is in contact with the cloth each time due to cloth feeding teeth is prevented when the cloth is in sewing.

Preferably, the sealing roller and the calibration strip are positioned on the same horizontal line and are in sliding connection with the rotary sucker, so that the difficulty of manual fault detection is reduced.

Preferably, the transition bin is hinged with a revolving door towards the upper feed box opening, the revolving door is consistent with the low plate in size, the low plate is prevented from being positioned in the upper feed box opening and is arranged in a through groove, and inconvenience is brought to the lifting of the receiving plate.

Preferably, each supporting leg of the rotary sucker is arranged to be bent, the bending angle of the bending part of the supporting leg is one hundred fifty degrees, and the straight supporting leg is counteracted to be difficult to adsorb the cloth.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, cloth between a high plate and a low plate is sent to a receiving plate through an electric sliding rail, then the receiving plate is driven to ascend through a first cylinder, when the receiving plate ascends, a driving rod is driven to drive a smoothing plate to smooth a plurality of layers of cloth by driving a fourth cylinder conveying rod, so that the cloth is flush, then when the receiving plate ascends again, the fourth cylinder conveying rod resets, a second driving rod returns to the inside of a feeding box, then in the process, a blowing pump connected with a joint of a blowing machine is started, when the cloth is blown up, a suction pump is started to generate negative pressure in a rotary sucker, and as the negative pressure is arranged in the rotary suckers on two sides of the feeding box to adsorb and fix two sides of the cloth, the cloth on the uppermost layer is adsorbed by the sucker, the cloth on the bottom layer cannot be misplaced, and the improved quality control is realized.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of another view of the whole of the present invention;

FIG. 3 is a schematic view of the overall and internal structure of the feeding box of the present invention;

FIG. 4 is a schematic diagram of an automatic feeding structure according to the present invention;

FIG. 5 is a schematic diagram of the point D of the present invention;

FIG. 6 is a schematic diagram of point B of the present invention;

FIG. 7 is a schematic view of point C of the present invention;

FIG. 8 is a schematic view of point A of the present invention;

FIG. 9 is a schematic top view of the entire part of the present invention;

fig. 10 is a schematic plan view of a rotary chuck according to the present invention.

In the figure: 1-feeding box; 101-fixing a guide frame; 2-an electric slide rail; 201-a first cylinder; 202, a receiving plate; 203-a calibration strip; 4-a parent conveyor belt; 5-a transfer platform; 51-a second cylinder; 52-tabletting; 53-sliding beads; 6-driving a sliding rail; 7-a sub-conveyor belt; 8-a material distribution assembly; 9-a feeding machine; 91-a third cylinder; 92-hinge rod; 93-suction pipe; 10-fixing plates; 1001-high board; 11-lower plate; 12-sliding bar; 13-a spring; 14-adjusting the rod; 15-fourth cylinder; 16-connecting shaft; 17-a first transmission rod; 18-a drive rod; 19-a second transmission rod; 20-pacifying plate; 21-a blowing machine joint; 22-an external shell; 23-rotating the suction cup; 24-a sewing machine; 25-sealing rollers; 26-transition bin.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the utility model provides an automatic tailor production line of multi-track, includes material loading case 1 and 101, material loading case 1 one side is established to fretwork and opening towards the sky shape material distribution subassembly 8 is installed to material loading case 1 opening part one side, material loading case 1 internally mounted has the material blowing subassembly that lifts up multilayer cloth, and the scheme improves original feeding system and feeding system for upper cloth and bottom cloth fully splice together, mainly go out the improvement to the feeding system, make original sucking disc when absorbing upper cloth, be in lower floor's cloth and not influenced, still carry out the layering through material blowing subassembly with the cloth in the scheme, further avoid two superimposed cloths to be in the same place because self material characteristic actuation, concrete embodiment is as follows:

the material blowing assembly comprises a movable plate arranged at the opening of the material feeding box 1, a second transmission rod 19 fixed on the movable plate and a material blowing machine joint 21 connected to the material blowing pump through a pipeline, wherein the second transmission rod 19 is connected with a driving mechanism to enable the material blowing machine joint 21 to be close to or far away from the side surface of the multi-layer cloth, one end of the first transmission rod 17 is provided with a smoothing plate 20, the bottom of the opening of the material feeding box 1 is provided with a first cylinder 201, an output rod of the first cylinder 201 is fixedly connected with a material receiving plate 202, when the output rod of the first cylinder 201 drives the material receiving plate 202 to rise to the position where the cloth plane is positioned at the level of the material blowing machine joint 21, the air blowing pump is opened to blow up laminated cloth, and when the cloth is raised, the multi-layer cloth is misplaced due to unsteady air stagnation, the material distributing assembly 8 is required to lift and adsorb the multi-layer cloth stably, and the misplacement of the opening of the material feeding box 1 is prevented;

the material distribution assembly 8 comprises external shells 22 arranged on two sides of the opening of the material loading box 1, rotary suction cups 23 which are rotatably connected to each external shell 22 and connected with a suction pump through pipelines, and sealing rollers 25 fixed inside the rotary suction cups 23, wherein a calibration strip 203 is arranged on one side of the material loading box 1, vent holes are formed in each supporting leg of the rotary suction cups 23, multiple layers of cloth are adsorbed in a layered mode when the supporting legs rotate, when each supporting leg rotates and is positioned on the calibration strip 203, the supporting legs are not ventilated, and the sealing rollers 25 and the calibration strip 203 are positioned on the same horizontal line and are in sliding connection with the rotary suction cups 23. When the output rod of the first cylinder 201 drives the material receiving plate 202 to ascend, the support legs are preferentially contacted, so that a plurality of support legs drive the rotary sucking disc 23 to integrally rotate in the external shell 22, wherein the inside of the rotary sucking disc 23 is in a negative pressure state, the inside of the rotary sucking disc 23 is communicated with each support leg, as shown in figures 7-9, the sealing roller 25 seals the support leg positioned at the horizontal line of the position, the support leg cannot be communicated with the inside of the rotary sucking disc 23, when the rotary sucking disc 23 is in a negative pressure state, and when one support leg in the rotary sucking disc 23 rotates to the position of the calibration strip 203, the support leg does not have adsorption capacity, and then cloth at the uppermost layer is sucked away through the feeding system, at the moment, because the other support legs also have suction force which is larger than that in the feeding system, and the multi-layer cloth is convenient for the feeding system to transfer the cloth for a plurality of times due to layering of the support legs.

The fixed guide frame 101 top is hung and is equipped with drive slide rail 6, drive slide rail 6 bottom is hung and is equipped with material loading machine 9, material loading machine 9 bottom is equipped with the sucking disc, a plurality of breathing pipes 93 are installed at the top, material loading machine 9 is equipped with articulated lever 92 in every breathing pipe 93 next door, material loading machine 9 all installs third cylinder 91 in every corner, and a plurality of articulated levers 92 are articulated together with material loading machine 9, and the articulated lever 92 activity of third cylinder 91 output rod drive, material loading machine 9 bottom sucking disc is used in the transfer of material loading system in the above-mentioned, it can be known from drawing 1 that material loading machine 9 follows fixed guide frame 101 and drive slide rail 6 and slides, material loading machine 9 is from taking the drive lifter, when material loading machine 9 bottom sucking disc is located material loading box 1 opening department, opens the pump on material loading machine 9, then material loading machine 9 bottom sucking disc is with the cloth, with third cylinder 91 drive make articulated lever 92 one end upset and bottom contact, with the fixed lock of the edge of sucking disc of cloth, stability when consolidating the cloth and when transferring when preventing that the cloth from falling easily.

The driving mechanism comprises a fourth air cylinder 15 arranged at the inner top of the feeding box 1, a driving rod 18 fixed on the output rod of the fourth air cylinder 15, a connecting shaft 16 arranged in the middle of the driving rod 18, and a first driving rod 17 connected with the driving rod 18 in a sliding manner through a rotating shaft, wherein the driving rod 18 is respectively connected with the first driving rod 17 and a second driving rod 19 in a sliding manner through the connecting shaft 16, the connecting positions of the first driving rod 17, the second driving rod 19 and the driving rod 18 are provided with sliding grooves, so that when the driving rod 18 drives the second driving rod 19 to be close to the opening of the feeding box 1, the inner walls of the opening of the first driving rod 17 and the feeding box 1 are overlapped, otherwise, when the first driving rod 17 parallelly passes over the inner wall of the opening of the feeding box 1, the second driving rod 19 is reset, and the rotating sucker 23 is further, so that the feeding is facilitated.

The automatic feeding structure comprises an electric sliding rail 2 arranged on the outer side of the feeding box 1, a fixed plate 10 fixed on an electric sliding block of the electric sliding rail 2, a low plate 11 fixed on one side of the fixed plate 10, a pair of springs 13 arranged on the low plate 11, a high plate 1001 fixed at one end of the springs 13, and a pair of adjusting rods 14 in sliding connection with a pair of sliding rods 12, wherein a plurality of mounting holes are formed in two sides of the low plate 11, the mounting holes are matched with the outer diameters of the sliding rods 12, a plurality of layers of cloth are manually filled between the high plate 1001 and the low plate 11 in parallel, the cloth is compressed under the elastic acting force of the springs 13, the adjusting rods 14 are mounted to compress the plurality of layers of cloth under the condition that the elastic acting force of the springs 13 is insufficient, the multi-layer cloth drives the fixed plate 10 to move through the electric sliding rail 2, then when the high plate 1001 is abutted against the smooth plate 20, the springs 13 are stretched to enable the cloth to be piled on the material receiving plate 202, and then the smooth plate 20 is extruded by driving the fourth cylinder 15 in a period of time when the material receiving plate 202 is driven by the first cylinder 201.

The utility model discloses a smooth board, including material receiving board 202, material loading box 1, material receiving board 202, smooth board 20 bottom installation a plurality of produce the claw, the groove of producing of matching produce the claw external diameter has been seted up to the material receiving board 202 top, go up the material box 1 outside and install excessive storehouse 26, should excessive storehouse 26 and electronic slide rail 2 equal altitude parallel, because take into account smooth board 20 direct oppression cloth probably be located material receiving board 202 bottom the cloth can't be in the parallel and level position by with other high-rise cloth one side, adopt produce the claw to insert into produce the inslot in the scheme for bottom cloth and other high-rise cloth are unified.

Each of the conveying platforms 5 is provided with a flattening component at the edge close to the sewing machine 24, the flattening component comprises a second air cylinder 51 arranged on the side face of the conveying platform 5, a pressing sheet 52 fixed on an output rod of the second air cylinder 51, and sliding beads 53 which are arranged in two groups and are respectively fixed on two sides of the pressing sheet 52, in order to prevent cloth feeding teeth and pressing feet on the sewing machine 24 from being stably matched, and prevent the edge of the cloth from rising when the auxiliary cloth feeding teeth feed cloth, the flattening component is arranged at the edge of the conveying platform 5, and the flattening component can descend through the second air cylinder 51 when the cloth is positioned on the cloth feeding teeth, so that the sliding beads 53 on the pressing sheet 52 are pressed on the cloth.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an automatic tailor production line of multi-track, includes material loading case (1) and fixed guide frame (101), its characterized in that: one side of the feeding box (1) is hollow, the opening of the feeding box faces upwards, a material distributing component (8) is arranged on one side of the opening of the feeding box (1), and a material blowing component for lifting the multi-layer cloth is arranged in the feeding box (1); the blowing assembly comprises a movable plate arranged at the opening of the feeding box (1), a second transmission rod (19) fixed on the movable plate, and a blowing machine joint (21) connected to the blowing pump through a pipeline, wherein the second transmission rod (19) is connected with a driving mechanism to enable the blowing machine joint (21) to be close to or far away from the side surface of the multi-layer cloth;

the material distribution assembly (8) comprises external shells (22) arranged on two sides of an opening of the material loading box (1), a rotary sucker (23) which is rotatably connected to each external shell (22) and is connected with a suction pump through a pipeline, and a sealing roller (25) which is fixed inside the rotary sucker (23), wherein a calibration strip (203) is arranged on one side of the material loading box (1); wherein be equipped with the air vent on every stabilizer blade of rotatory sucking disc (23), adsorb multilayer cloth layering when the stabilizer blade is rotatory, and when every stabilizer blade is rotatory to be located calibration strip (203), the stabilizer blade is not ventilated, sealing roller (25) and calibration strip (203) are in same horizon and with rotatory sucking disc (23) sliding connection, sealing roller (25) will be located the stabilizer blade of this department horizon department and block up sealedly, this department stabilizer blade can not communicate with each other with rotatory sucking disc (23) inside.

2. A multi-track automatic tailor line according to claim 1, characterized in that: the fixed guide frame (101) top is hung and is equipped with drive slide rail (6), drive slide rail (6) bottom is hung and is equipped with material loading machine (9), material loading machine (9) bottom is equipped with the sucking disc, a plurality of breathing pipes (93) are installed at the sucking disc top, material loading machine (9) are equipped with articulated pole (92) in every breathing pipe (93) next door, material loading machine (9) all install third cylinder (91) in every corner, and a plurality of articulated poles (92) are articulated together with material loading machine (9), and the activity of third cylinder (91) output rod drive articulated pole (92).

3. A multi-track automatic tailor line according to claim 2, characterized in that: the driving mechanism comprises a fourth air cylinder (15) arranged at the inner top of the feeding box (1), a driving rod (18) fixed on an output rod of the fourth air cylinder (15), a connecting shaft (16) arranged at the middle part of the driving rod (18), and a first transmission rod (17) which is in sliding connection with the driving rod (18) through a rotating shaft, wherein the driving rod (18) is respectively in sliding connection with the first transmission rod (17) and a second transmission rod (19) through the connecting shaft (16).

4. A multi-track automatic tailor line according to claim 3, characterized in that: the automatic feeding structure is characterized in that the automatic feeding structure comprises an electric sliding rail (2) arranged on the outer side of the feeding box (1), a fixed plate (10) fixed on an electric sliding block of the electric sliding rail (2), a low plate (11) fixed on one side of the fixed plate (10), a pair of springs (13) arranged on the low plate (11), a high plate (1001) fixed at one end of the springs (13) and an adjusting rod (14) in sliding connection with the pair of sliding rods (12), wherein a plurality of mounting holes are formed in two sides of the low plate (11), and the mounting holes are matched with the outer diameters of the sliding rods (12).

5. A multi-track automatic tailor line according to claim 4, wherein: the utility model discloses a feeding box, including first transfer line (17), material loading box (1), flat board (20) is installed to first transfer line (17) one end, first cylinder (201) is installed in opening part bottom, first cylinder (201) output rod fixedly connected with connects flitch (202), a plurality of producing claws are installed to smooth board (20) bottom, produce the groove of matching producing claw external diameter has been seted up at material receiving plate (202) top, excessive storehouse (26) are installed in material loading box (1) outside, high parallelism such as excessive storehouse (26) and electronic slide rail (2).

6. A multi-track automatic tailor line according to claim 5, characterized in that: the automatic feeding machine is characterized in that a mother conveyor belt (4) is arranged outside the feeding box (1), child conveyor belts (7) are respectively arranged on two sides of the mother conveyor belt (4), a pair of conveying platforms (5) are arranged at one end, far away from the feeding box (1), of the mother conveyor belt (4), and a sewing machine (24) is arranged on each conveying platform (5).

7. The multi-track automatic tailor line of claim 6, wherein: each conveying platform (5) is provided with a flattening assembly near the edge of the sewing machine (24), the flattening assembly comprises a second air cylinder (51) arranged on the side surface of the conveying platform (5), a pressing sheet (52) fixed on an output rod of the second air cylinder (51), and two groups of sliding beads (53) respectively fixed on two sides of the pressing sheet (52).

8. A multi-track automatic tailor line according to claim 7, wherein: the transition bin (26) is hinged with a revolving door at the opening part facing the feeding box (1), and the revolving door is consistent with the lower plate (11) in size.

9. A multi-track automatic tailor line according to claim 8, characterized in that: each supporting leg of the rotary sucker (23) is in a bent shape, and the bending angle of the bending part of the supporting leg is one hundred fifty degrees.