CN114668206A

CN114668206A - Assembly line for clothing production based on Internet of things

Info

Publication number: CN114668206A
Application number: CN202210595478.8A
Authority: CN
Inventors: 管杰
Original assignee: Nantong Jiexiang Clothing Co ltd
Current assignee: Nantong Jiexiang Clothing Co ltd
Priority date: 2022-05-30
Filing date: 2022-05-30
Publication date: 2022-06-28
Anticipated expiration: 2042-05-30
Also published as: CN114668206B

Abstract

The invention relates to the technical field of garment production lines, and discloses a garment production line based on the Internet of things, which comprises a main rotating assembly casing, wherein a supporting guide plate is fixedly arranged on the main rotating assembly casing, the assembly line for clothing production based on the Internet of things is characterized in that a screening and conveying transverse plate is movably arranged on a supporting guide plate, and the middle part of the upper surface of the screening and conveying transverse plate is provided with a convex stabilizing plate which is used for being clamped in a corresponding annular groove arranged in the middle part of the roller wheel of the hanging, and the hanging roller is stably clamped and rolled downwards to separate from the main rotating assembly, meanwhile, the hanging roller can be separated from the main rotating assembly in this way and then enters the buffering identification structure, and whether the clothing on the hanging assembly is normally hung can be detected, and then whether follow-up guide is sent to the processing workbench or not is judged, and the functional comprehensiveness of the assembly line is improved.

Description

Assembly line for clothing production based on Internet of things

Technical Field

The invention relates to the technical field of garment production lines, in particular to a garment production line based on the Internet of things.

Background

The intelligent assembly line of hanging of mainly adopting in the clothing production process that has now, this assembly line mainly contains main runner assembly, feeding direction subassembly, machining workstation and ejection of compact direction subassembly, and its main working process is: clothing in the first machining work station is hung and is entered into main rotating assembly, then pass through thing networking transmission signal to control terminal according to the sensor on the equipment, all contain the discernment chip in every is hung, hang every clothing again and need enter into which machining work station and the feeding direction subassembly of controlling this workstation tip starts, hang clothing on the main rotating assembly and shunt to machining work station in and process, the processing is accomplished the back and is led back main rotating assembly again from ejection of compact direction subassembly again and carry, but current assembly line of hanging still has some problems in the use, specifically as follows:

firstly, the transmission component between the main rotating component and the processing platform in the existing feeding guide component is an arc-shaped steering guide rail capable of swinging up and down, when a clothing hanger corresponding to the clothing to be processed moves to the position, the guide rail is controlled to be attached to the guide rail of the main rotating component through a signal transmitted by a sensor arranged on the guide rail, then the clothing hanger is clamped on the guide rail in the moving process of the clothing hanger and then moves in an arc shape to enter the processing workbench for processing, but the clothing hanger needs to slightly move upwards by means of the steering guide rail in the process of merging from the main rotating component to the steering guide rail, so that a roller of the hanger is firstly separated from the guide rail on the main rotating component to complete the rotation and combination on the steering guide rail, and the condition that the hanger is derailed in the turning process can be caused, thereby the process of the whole clothing processing line is disturbed, the derailment of the hanger may also injure personnel sitting at the machining table.

Secondly, when the existing feeding guide assembly identifies the hanging needing to be guided in, the hanging at the position can be directly guided to the processing table without identifying a buffering area, because the clothes are hung below the hanging, the clothes can fall off from the hanging in the conveying process, and the hanging after falling off can also be directly guided to the processing table in the existing production line, thus increasing the hanging and stacking quantity at the processing table, and the stacked empty hanging can only be sent back to the main rotating assembly again in the subsequent circulation so as not to disturb the process of the whole production line, then the clothes are hung on the first processing work station and then the subsequent circulation is carried out, so that the operation can lead the empty hanging to pass through the whole circulation and can not be found in time before entering the processing work station, and the chip is not marked by a structure for marking the chip, the empty hanger can rotate on the assembly line for a long time, and the utilization rate of the hanger is greatly reduced.

Disclosure of Invention

The invention provides an Internet of things-based assembly line for garment production, which has the advantages of comprehensive functions and high working efficiency and solves the problems in the background technology.

The invention provides the following technical scheme: an assembly line for clothing production based on the Internet of things comprises a main rotating assembly casing, wherein a supporting guide plate is fixedly installed on the main rotating assembly casing, a rotatable pushing rotating belt is movably installed in the main rotating assembly casing, a push rod is fixedly installed on the surface of the pushing rotating belt, a hanging roller is movably clamped and connected on the supporting guide plate in a nested mode, a clamping ring groove is formed in the middle of the hanging roller, a screening guiding and conveying transverse plate is movably sleeved on the supporting guide plate through a certain point shaft lever, a clamping vertical plate is fixedly installed in the middle of the upper surface of the screening guiding and conveying transverse plate, a buffering identification structure is fixedly installed on the lower surface of the supporting guide plate, a rotatably separated guiding and conveying end head is movably arranged on the buffering identification structure, clamping vertical plates are also arranged on the buffering identification structure and the guiding and conveying end head, and one end, far away from the buffering identification area, of the guiding and conveying end head is movably sleeved on the end portion of a guide rail on the assembly line through the shaft lever, the lower surface of the supporting guide plate is provided with a loopback end head and a loopback driving structure, and a marking module is fixedly arranged between the loopback end head and the loopback driving structure on the lower surface of the supporting guide plate;

the supporting guide plate comprises a supporting plate, an electromagnetic attraction block is fixedly mounted at the end part of the supporting plate positioned on the screening and conveying transverse plate, and a rotating plate is movably mounted at the joint of the upper end of the returning driving structure and the supporting guide plate on the supporting plate;

the buffer identification structure comprises a support fixedly arranged on the lower surface of a supporting guide plate, the upper surface of the support is in a ladder shape, the surface of the ladder-shaped upper part of the support is connected with the bottom end of a screening and conveying transverse plate through a reset spring, a pressure sensor is fixedly arranged on the surface of the ladder-shaped middle part of the support, a movable buffer clamping piece is movably arranged above the middle part of the support, a vertical plate is fixedly arranged in the middle of the upper surface of the movable buffer clamping piece, a transmission structure is movably arranged above the ladder-shaped bottom end in the support, and two positioning vertical plates are fixedly arranged at the end part of the bottom of the support;

the guiding and conveying end comprises a first end block, the end part of the first end block is movably connected with a guide rail in the assembly line through a connecting end, the connecting part is controlled by a control center to rotate, a vertical plate is fixedly arranged in the middle of the upper surface of the first end block, and a second driving butt-joint block is fixedly arranged at the end part butted with the buffering recognition structure;

the loopback end comprises a first vertical rod fixedly arranged on the lower surface of the supporting guide plate, the bottom end of the front surface of the first vertical rod is provided with a hydraulic telescopic rod, the telescopic rod is controlled by a control center, and the telescopic end of the hydraulic telescopic rod is fixedly provided with a second end block;

loopback drive structure and contain the second pole setting of fixed mounting at the support baffle lower surface, equal movable mounting has the runner, two between the bottom of second pole setting and the lower surface that is located the support baffle on second pole setting right side swing joint has the head of leading to send between the runner, the equal fixed mounting in surface middle part of leading to send the head has the pole setting.

In a preferred embodiment, the electromagnetic attraction block is electrically connected with the control center, the middle part of the rotating plate and the part of the supporting plate corresponding to the rotating plate are provided with vertical grooves, and the vertical grooves can enable vertical rods on the guide and feed head to normally penetrate in the rotating process, so that the hanging roller at the bottom can be normally conveyed to the main rotating assembly.

In a preferred embodiment, the screening and conveying cross plate can be completely attached to the top end of the stepped upper surface of the support after being opened and rotated, the upper surface of the screening and conveying cross plate is in coplanar butt joint with the upper surface of the movable buffer clamping piece after being attached, and the two positioning vertical plates are arranged at intervals.

In a preferred embodiment, transmission structure contains through pivot swing joint in the inside center dwang of support, the upper end fixed mounting of center dwang has fixed end, swing joint has the one end and the activity of connecting rod and this connecting rod to cushion fastener bottom fixed connection on the fixed end, swing joint has the telescopic activity end in the lower extreme of center dwang, the tip of activity end passes swing joint has first drive butt joint piece between two spaced location risers, first drive butt joint piece is right trapezoid's structure and its bottom and support inside between fixed mounting have the jacking spring.

In a preferred embodiment, the first end block is L-shaped, the bending part is an arc-shaped structure, and the height of one end of the first end block, which is in butt joint with the buffer identification structure, is higher than that of the other end of the first end block.

In a preferred embodiment, the left end part of the second end block is provided with a head which can be butted with the first driving butt joint block to press the first driving butt joint block downwards, the right side of the second end block is movably butted with the left end of the back conveying driving structure, the middle part of the right side of the second end block is also provided with an arc-shaped groove which can enable the guide head to normally pass through the rotating, one end position of the end part of the second end block, which is butted with the back conveying driving structure, is positioned on the lower surface of the supporting guide plate, a marking module is arranged at the corresponding position, and the transverse part of the bottom end of the support is positioned on the back surface and is provided with an extension section.

In a preferred embodiment, the vertical rod on the surface of the delivery head passes through the vertical groove formed in the middle of the rotating plate and the corresponding position in the middle of the supporting plate, the end part of the right side of the rotating plate is attached to the surface of the delivery head, and the rotating direction of the rotating plate rotates around the shaft upwards.

The invention has the following beneficial effects:

1. the production line for clothing production based on the Internet of things is characterized in that a screening guide transverse plate is movably arranged on a supporting guide plate, a convex stabilizing plate is arranged in the middle of the upper surface of the screening guide transverse plate and used for being clamped in a corresponding annular groove formed in the middle of a hanging roller, the hanging roller is stably clamped and rolled downwards to separate from a main rotating assembly, namely the hanging roller cannot be lifted and turned to guide and convey with the supporting guide plate in the process of separating from the main rotating assembly, the whole separation process on the main rotating assembly is stable clamping, so that the condition that the hanging roller is derailed in the process is avoided, and meanwhile, the hanging roller can detect whether clothing on the hanging assembly is normally hung on a buffering identification structure after separating from the main rotating assembly in the mode, so as to judge whether subsequent clothing is guided to a processing workbench or not, the functional comprehensiveness of the assembly line is improved.

2. The production line for producing the clothes based on the Internet of things detects a pressure signal generated by the weight of a hanging component staying on a buffering identification structure through a pressure sensor, judges whether the clothes on the hanging component are normally hung or not according to a preset range of a pressure value, starts a guide end head to rotate around a connecting end part and clamp the lower end part of the buffering identification structure when the clothes are normally hung, completely presses a first driving butt joint block so that the pressing action pushes a movable buffering clamping piece to rotate upwards around a shaft through the integral transmission of a transmission structure after the guide end head is butted so as to discharge the hanging component in the buffering identification structure to the guide end head and convey the hanging component to a processing workbench, starts to return the end head to transversely move and clamp the lower end part of the buffering identification structure if the detection result is abnormally hung, and also discharges the hanging component in the buffering identification structure after the clamping is completed, the hanging roller rolls to return the position on the end head to be marked with a signal, and simultaneously, the return driving structure is started to conduct the guiding operation on the main rotating assembly on the hanging roller guided from the return end head, so that the abnormal hanging roller quickly returns to the first processing table through a circle of rotation to be processed, and the working efficiency of the production line is improved.

Drawings

FIG. 1 is a schematic cross-sectional view of the normal delivery of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention during loopback;

FIG. 3 is a schematic perspective view of the normal guiding of the present invention;

FIG. 4 is a schematic perspective view of a delivery tip according to the present invention;

FIG. 5 is a schematic perspective view of the connection between the support guide and the cushion identification structure according to the present invention;

FIG. 6 is a perspective view of a portion of the support guide of the present invention;

FIG. 7 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 8 is a schematic diagram of a flow chart for determining the identification area according to the present invention;

fig. 9 is a schematic diagram of a prior art structure.

In the figure: 1. a main rotating assembly housing; 2. supporting the guide plate; 21. a support plate; 22. an electromagnetic attraction block; 23. a rotating plate; 3. pushing the rotating belt; 4. a push rod; 5. hanging rollers; 6. screening and conveying transverse plates; 7. a buffer identification structure; 71. a support; 72. a return spring; 73. a pressure sensor; 74. a movable buffer clamping piece; 75. a transmission structure; 751. a central rotating rod; 752. fixing the end head; 753. a movable end; 754. a first drive docking block; 76. positioning a vertical plate; 8. a guiding end; 81. a first end block; 82. a second drive butting block; 9. returning the end head; 91. a first upright stanchion; 92. a second end block; 10. a loopback drive structure; 101. a second upright stanchion; 102. a rotating wheel; 103. a guide head; 11. and a marking module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Please refer to fig. 1 and 2, which show a production line for clothing production based on internet of things, comprising a main rotating assembly casing 1, wherein a supporting guide plate 2 is fixedly installed on the main rotating assembly casing 1, a rotatable pushing rotating belt 3 is movably installed in the main rotating assembly casing 1, a push rod 4 is fixedly installed on the surface of the pushing rotating belt 3, a hanging roller 5 is movably clamped on the supporting guide plate 2 in a nested manner, a clamping ring groove is formed in the middle of the hanging roller 5, a screening and guiding transverse plate 6 is movably sleeved on the supporting guide plate 2 through a certain point shaft lever, a clamping vertical plate is fixedly installed in the middle of the upper surface of the screening and guiding transverse plate 6, a buffering identification structure 7 is fixedly installed on the lower surface of the supporting guide plate 2, a rotatably separated guiding end 8 is movably arranged on the buffering identification structure 7, and clamping vertical plates are also arranged on the buffering identification structure 7 and the guiding end 8, one end of the guiding and conveying end socket 8, which is far away from the buffering identification area 7, is movably sleeved at the end part of the guide rail on the production line through a shaft lever, the lower surface of the supporting guide plate 2 is provided with a loopback end socket 9 and a loopback driving structure 10, and a marking module 11 is fixedly arranged between the loopback end socket 9 and the loopback driving structure 10 on the lower surface of the supporting guide plate 2;

compared with the prior art, lead and send diaphragm 6 through movable mounting has the screening on supporting guide 2, like this hang the mode of gyro wheel 5 separation from main runner assembly with traditional jacking change into directly stably from the screening of opening lead and send diaphragm 6 department joint separation from main runner assembly downwards, very big improvement hang gyro wheel 5 the not enough defect of stability when breaking away from main runner assembly, cooperate the riser on the buffering identification structure 7 simultaneously can make hang gyro wheel 5 and lead from screening lead and send diaphragm 6 more steadily to lead and send to buffering identification structure 7 on, the stability of leading and sending the clothing of this assembly line has been guaranteed.

Please refer to fig. 1, 2 and 6, which illustrate an assembly line for clothing production based on the internet of things, and includes a supporting guide plate 2, the supporting guide plate 2 includes a supporting plate 21, an electromagnetic attraction block 22 is fixedly installed at an end portion of the supporting plate 21 located at the sieving and conveying transverse plate 6, a rotating plate 23 is movably installed at a joint of an upper end of the returning and driving structure 10 and the supporting guide plate 2 on the supporting plate 21, the electromagnetic attraction block 22 is electrically connected with a control center, and vertical grooves are formed in a middle portion of the rotating plate 23 and a portion of the supporting plate 21 corresponding to the rotating plate 23;

in this application embodiment, can realize utilizing returning the drive structure 10 to hang the loopback in-process can normal rotation of gyro wheel 5 through the perpendicular groove of seting up on rotor plate 23 and the backup pad 21 to the realization is in the below and returns the end 9 and returns the top of leading of hanging gyro wheel 5 of drive structure 10 butt joint department of loopbacking, and then realizes hanging gyro wheel 5 and rotate the conveying in getting into main runner assembly once more, the hanging gyro wheel 5 of avoiding the clothing to break away from enters into machining workbench department and rotates a big long-time circulation, improve the rapid processing ability to unusual gyro wheel 5 of hanging.

Please refer to fig. 1, 3 and 5, which illustrate an internet-of-things-based assembly line for clothing production, comprising a buffering identification structure 7, wherein the buffering identification structure 7 comprises a support 71 fixedly mounted on the lower surface of a supporting guide plate 2, the upper surface of the support 71 is in a step shape, the surface of the step-shaped upper portion of the support 71 is connected with the bottom end of a sieving and conveying transverse plate 6 through a return spring 72, the surface of the step-shaped middle portion of the support 71 is fixedly provided with a pressure sensor 73, a movable buffering clamping piece 74 is movably mounted above the middle portion of the support 71, the middle portion of the upper surface of the movable buffering clamping piece 74 is fixedly provided with a vertical plate, the sieving and conveying transverse plate 6 can be completely attached to the top end of the step-shaped upper surface of the support 71 after being opened and rotated, and the upper surface of the sieving and conveying transverse plate 6 is coplanar and butted with the upper surface of the movable buffering clamping piece 74 after being attached, a transmission structure 75 is movably mounted above the stepped bottom end inside the support 71, two positioning vertical plates 76 are fixedly mounted at the bottom end of the support 71, and the two positioning vertical plates 76 are arranged at intervals;

it should be noted that, after the screening guide transverse plate 6 is completely butted with the buffering identification structure 7, a stable and continuous supporting surface can be provided for the hanging roller 5 to roll downwards from the supporting guide plate 2, and meanwhile, the upper surface of the screening guide transverse plate 6 and the vertical plate arranged on the upper surface of the movable buffering clamping piece 74 can be clamped into the middle clamping ring groove of the hanging roller 5, so that the stability of the hanging roller 5 in guiding from the supporting guide plate 2 to the buffering identification structure 7 is ensured, and the derailment of the hanging roller 5 in guiding outwards from the main rotating assembly is avoided.

Please refer to fig. 2, 5 and 7, which illustrate an internet of things-based assembly line for garment production, comprising a transmission structure 75, wherein the transmission structure 75 comprises a central rotating rod 751 movably connected to the inside of a support 71 through a rotating shaft, the upper end of the central rotating rod 751 is fixedly provided with a fixed end 752, the fixed end 752 is movably provided with a connecting rod, one end of the connecting rod is fixedly connected with the bottom end of a movable buffer clamping piece 74, the lower end of the central rotating rod 751 is movably connected with a telescopic movable end 753, the end of the movable end 753 penetrates through two positioning risers 76 with intervals and is movably connected with a first driving butt-joint block 754, the first driving butt-joint block 754 is a right trapezoid structure, and a jacking spring is fixedly arranged between the bottom end of the first driving butt-joint block 754 and the inside of the support 71;

it should be noted that when the hanging roller 5 rolls on the movable buffer clamping piece 74, the movable buffer clamping piece 74 is pressed to rotate, and further the lower end of the movable buffer clamping piece 74 rotates downwards, so that the hanging roller 5 is clamped between the end of the movable buffer clamping piece 74 and the support 71, thereby forming a buffer identification area of the hanging roller 5 in the area, the hanging roller 5 can stay in the area to ensure the stability, and simultaneously the pressure signal generated by the extrusion of the pressure sensor 73 when the movable buffer clamping piece 74 rotates can also be used, and then judge whether the clothing on discernment hanging roller 5 hangs normally to the hanging roller 5 discernment that breaks away from the clothing separates out, avoids this hanging roller 5 to get into long circulation flow and leads to it to get back to the first station in time and carry out the condition that hangs the clothing and reuse again, improves the whole transmission efficiency of this assembly line.

Please refer to fig. 1, 3 and 4, which illustrate an internet of things-based assembly line for garment production, including a guiding end 8, where the guiding end 8 includes a first end block 81, an end of the first end block 81 is movably connected to a guide rail in the assembly line through a connecting end, and the connecting portion is controlled by a control center to rotate, a vertical plate is fixedly installed in the middle of the upper surface of the first end block 81, a second driving butt-joint block 82 is fixedly installed at an end butted with a buffering identification structure 7, the first end block 81 is L-shaped and has an arc-shaped bent portion, and a height of a butt-joint end of the first end block 81 and the buffering identification structure 7 is higher than that of the other end;

it should be noted that, when the pressure sensor 73 recognizes that the garment can be normally guided to the processing workbench, the control center controls the end of the first end block 81 to rotate downward to abut against the bottom end of the buffer identification structure 7, and at the same time, the second driving abutting block 82 abuts against the first driving abutting block 754, so that the movable buffer clamping piece 74 jacks up the hanging roller 5, so that the hanging roller 5 rolls along the surface of the buffer identification structure 7 to the surface of the guiding end 8, and then enters the guiding track to enter the processing workbench, and after the guiding of the hanging roller 5 is completed, the guiding end 8 rotates upward again to tilt upward, and the abutting against the bottom end of the buffer identification structure 7 is broken, thereby ensuring that the subsequent hanging roller 5 can normally pass through the clothing, and the relationship between the model and the size of the second driving abutting block 82 and the first driving abutting block 754 is adapted, the specific matching butt joint belongs to the common knowledge in the field and is not described in detail herein.

Referring to fig. 2, 5 and 7, the internet of things-based garment production line includes a loopback end 9, the loopback end 9 comprises a first vertical rod 91 fixedly arranged on the lower surface of the support guide plate 2, a hydraulic telescopic rod is arranged at the bottom end of the front surface of the first vertical rod 91 and is controlled by a control center, the telescopic end of the hydraulic telescopic rod is fixedly provided with a second end block 92, the left end part of the second end block 92 is provided with an end head which can be butted with the first driving butt-joint block 754 to press the first driving butt-joint block down, the right side is movably butted with the left end of the back conveying driving structure 10, an arc-shaped groove which can enable the guide head 103 to normally pass through and rotate is formed in the middle of the right side of the support, a marking module 11 is arranged at a corresponding position on the lower surface of the support guide plate 2 at one end of the butt joint position of the end part of the second end block 92 and the loopback driving structure 10, and an extension section is arranged on the back side of the transverse part of the bottom end of the support 71;

it should be noted that, when the pressure signal detected by the pressure sensor 73 is a signal within the abnormal threshold, the control center controls the hydraulic telescopic rod to extend, so that the extending section at the bottom end of the support 71 supports the returning end 9 to push the returning end 9 to the buffering identification structure 7 for docking, so as to connect the route between the buffering identification structure 7 and the returning drive structure 10, and the hanging roller 5 rolls between the returning end 9 and the returning drive structure 10 while the guiding head 103 does not push the stopping gap of the hanging roller 5, the marking module 11 marks the core sheet in the hanging roller 5, so as to quickly respond to the abnormal hanging roller 5 detected by the returning drive structure 10, i.e. the returning end 9 is docked with the buffering identification structure 7, and then the hanging roller 5 is returned to the main rotating assembly for conveying, and at the same time, the specific position of the abnormal hanging roller 5 on the main rotating assembly can be displayed by the system, the function of the whole assembly line is more perfect.

Please refer to fig. 2, which illustrates a production line for clothing production based on the internet of things, and includes a loopback driving structure 10, where the loopback driving structure 10 includes a second vertical rod 101 fixedly installed on the lower surface of a support guide 2, rotating wheels 102 are movably installed between the bottom end of the second vertical rod 101 and the lower surface of the support guide 2 located on the right side of the second vertical rod 101, a delivery head 103 is movably connected between the two rotating wheels 102, vertical rods are fixedly installed in the middle of the outer surface of the delivery head 103, the vertical rods on the surface of the delivery head 103 pass through vertical slots formed in the middle of a rotating plate 23 and the middle of a support plate 21, the end of the right side of the rotating plate 23 is attached to the surface of the delivery head 103, and the rotating direction of the rotating plate rotates upward around a shaft;

in the embodiment of this application, the rotation through leading send head 103 drives the pole setting rotation, the pole setting can be dragged it when rotating the lower extreme of hanging gyro wheel 5, then upwards remove, when reaching rotor plate 23 department, can upwards rotate rotor plate 23 jack-up and open the passageway of this part through hanging gyro wheel 5, just so can send off unnormal gyro wheel 5 of hanging back again main rotating component smoothly, and then realize leading back unnormal automation of hanging gyro wheel 5, improve the practicality of this assembly line.

The working principle is that under the driving of the main rotating assembly, the pushing rotating belt 3 drives the push rod 4 to move transversely, so as to push the hanging roller 5 on the supporting guide plate 2 to move transversely, after the hanging roller 5 reaches the original identification area on the production line, the control center controls the corresponding electromagnetic suction block 22 to be powered off, the screening guide transverse plate 6 which loses the adsorption of the electromagnetic suction block 22 is pressed downwards and opened after the hanging roller 5 rolls to the position, then the hanging roller 5 rolls to the movable buffer clamping piece 74 under the clamping of the screening guide transverse plate 6 and a vertical plate on the movable buffer clamping piece 74, after the hanging roller 5 leaves the screening guide transverse plate 6, the screening guide transverse plate 6 is upwards bounced to adsorb to the electromagnetic suction block 22 again under the action of the reset spring 72, the hanging roller 5 on the movable buffer clamping piece 74 presses down the end of the movable buffer clamping piece 74, and then the hanging roller 5 is clamped between the movable buffer clamping piece 74 and the support 71, at this time, the bottom end of the movable buffer clamping piece 74 presses down the pressure sensor 73 to generate a pressure signal, the signal is transmitted to the control center for judgment, when the pressure signal is in a normal threshold range, the control center controls the guiding end 8 to rotate and butt-joint to the bottom end of the support 71, after the second driving butt-joint block 82 completely presses down the first driving butt-joint block 754, the hanging roller 5 rolls down from the movable buffer clamping piece 74 by virtue of the integral transmission of the transmission structure 75, and then enters the first end block 81, the guiding to the hanging roller 5 is stably carried out by virtue of the vertical plate on the upper surface of the first end block 81, after the guiding is finished, the guiding end 8 rotates and lifts up again, if the control center judges that the pressure signal is outside the normal threshold range, on the contrary, the guiding end 8 is not started, but the hydraulic telescopic rod connected to the loopback end 9 is started to extend, and the loopback end 9 is pushed to the end of the buffer identification structure 7 for butt-joint, similarly, the end of the back feeding end 9 abutting against the first driving abutting block 754 also pushes out and rolls off the abnormal hanging roller 5 clamped on the movable buffer clamping piece 74 by means of the integral transmission of the transmission structure 75, and then enters the abutting joint of the back feeding end 9 and the back feeding driving structure 10, at this time, the marking module 11 marks the abnormal hanging roller 5 with a signal, then the rotating wheel 102 rotates under the driving of the driving structure to drive the guiding head 103 to rotate, so that the vertical rod on the back feeding end can lift the hanging roller 5 up and convey in an inclined direction, and when reaching the top end of the right side, the rotating plate 23 can be jacked up, and then the hanging roller 5 can normally enter the main rotating assembly to convey again until the hanging roller 5 rotates to the initial station to be rearranged.

It is noted that, herein, relational terms such as first and second, and the like may be 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. Also, 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 appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 assembly line for clothing production based on thing networking, includes main rotating assembly casing (1), its characterized in that: the device is characterized in that a supporting guide plate (2) is fixedly installed on a main rotating assembly casing (1), a rotatable pushing rotating belt (3) is movably installed in the main rotating assembly casing (1), a push rod (4) is fixedly installed on the surface of the pushing rotating belt (3), a hanging roller (5) is movably clamped on the supporting guide plate (2), a clamping ring groove is formed in the middle of the hanging roller (5), a screening and guiding transverse plate (6) is movably sleeved on the supporting guide plate (2) through a certain point shaft lever, a clamping vertical plate is fixedly installed in the middle of the upper surface of the screening and guiding transverse plate (6), a buffering identification structure (7) is fixedly installed on the lower surface of the supporting guide plate (2), a rotatably separated guiding end (8) is movably arranged on the buffering identification structure (7), and clamping vertical plates are also arranged on the buffering identification structure (7) and the guiding end (8), one end of the guiding and conveying end (8) far away from the buffer identification area (7) is movably sleeved at the end part of the guide rail on the production line through a shaft lever, the lower surface of the supporting guide plate (2) is provided with a loopback end (9) and a loopback driving structure (10), and a marking module (11) is fixedly arranged between the loopback end (9) and the loopback driving structure (10) on the lower surface of the supporting guide plate (2);

the supporting guide plate (2) comprises a supporting plate (21), an electromagnetic attraction block (22) is fixedly mounted at the end part of the supporting plate (21) positioned on the screening and guiding transverse plate (6), and a rotating plate (23) is movably mounted at the joint of the upper end of the returning driving structure (10) and the supporting guide plate (2) on the supporting plate (21);

the buffer identification structure (7) comprises a support (71) fixedly mounted on the lower surface of the support guide plate (2), the upper surface of the support (71) is in a step shape, the surface of the step-shaped upper part of the support (71) is connected with the bottom end of the screening and guiding transverse plate (6) through a return spring (72), a pressure sensor (73) is fixedly mounted on the surface of the step-shaped middle part of the support (71), a movable buffer clamping piece (74) is movably mounted above the middle part of the support (71), a vertical plate is fixedly mounted in the middle of the upper surface of the movable buffer clamping piece (74), a transmission structure (75) is movably mounted above the step-shaped bottom end inside the support (71), and two positioning vertical plates (76) are fixedly mounted at the end part of the bottom of the support (71);

the guide end block (8) comprises a first end block (81), the end part of the first end block (81) is movably connected with a guide rail in the production line through a connecting end block, the connecting part is controlled by a control center to rotate, a vertical plate is fixedly installed in the middle of the upper surface of the first end block (81), and a second driving butt-joint block (82) is fixedly installed at the end part butted with the buffer identification structure (7);

the loopback end (9) comprises a first vertical rod (91) fixedly arranged on the lower surface of the supporting guide plate (2), a hydraulic telescopic rod is arranged at the bottom end of the front surface of the first vertical rod (91), the telescopic rod is controlled by a control center, and a second end block (92) is fixedly arranged at the telescopic end of the hydraulic telescopic rod;

loopback drive structure (10) and contain second pole setting (101) of fixed mounting at support baffle (2) lower surface, equal movable mounting has runner (102), two between the bottom of second pole setting (101) and the lower surface that is located support baffle (2) on second pole setting (101) right side swing joint has lead and send head (103) between runner (102), the equal fixed mounting in surface middle part of lead and send head (103) has the pole setting.

2. The assembly line for clothing production based on the Internet of things of claim 1, wherein: electromagnetic attraction piece (22) is connected with the control center electricity, the middle part of rotor plate (23) and backup pad (21) go up and have seted up perpendicular groove with rotor plate (23) position corresponding part, and should erect the groove and can realize that the pole setting on leading send head (103) can normally pass at rotatory in-process, and then can normally carry main rotating assembly with hanging gyro wheel (5) of bottom.

3. The assembly line for clothing production based on the Internet of things of claim 1, wherein: the screening and guiding transverse plate (6) can be completely attached to the top end of the stepped upper surface of the support (71) after being opened and rotated, the upper surface of the screening and guiding transverse plate (6) is in coplanar butt joint with the upper surface of the movable buffer clamping piece (74) after being attached, and the two positioning vertical plates (76) are arranged at intervals.

4. The assembly line for clothing production based on the Internet of things of claim 1, wherein: drive structure (75) contain through pivot swing joint in inside center dwang (751) of support (71), the upper end fixed mounting of center dwang (751) has fixed end (752), movable mounting has the connecting rod and the one end and the activity of this connecting rod cushion fastener (74) bottom fixed connection on fixed end (752), swing joint has telescopic activity end (753) in the lower extreme of center dwang (751), the tip of activity end (753) passes swing joint between two location risers (76) that have the interval and has first drive butt joint piece (754), first drive butt joint piece (754) are right trapezoid's structure and its bottom and support (71) inside between fixed mounting have the jacking spring.

5. The assembly line for clothing production based on the Internet of things of claim 1, wherein: the first end block (81) is L-shaped, the bent part of the first end block is arc-shaped, and the height of one end, which is butted with the buffer identification structure (7), of the first end block (81) is higher than that of the other end of the first end block.

6. The assembly line for clothing production based on the Internet of things of claim 1, wherein: the left end of the second end block (92) is provided with an end head which can be butted with the first driving butting block (754) to press the first driving butting block downwards, the right side of the second end block is movably butted with the left end of the back feeding driving structure (10), the middle part of the right side of the second end block is also provided with an arc-shaped groove which can enable the guide head (103) to normally pass through and rotate, one end of the end part of the second end block (92) butted with the back feeding driving structure (10) is positioned on the lower surface of the supporting guide plate (2), a marking module (11) is arranged at the corresponding position, and the transverse part of the bottom end of the support seat (71) is positioned on the back side and is provided with an extending section.

7. The assembly line for clothing production based on the Internet of things of claim 1, wherein: the vertical rod on the surface of the guide and delivery head (103) can penetrate through vertical grooves formed in the corresponding positions of the middle of the rotating plate (23) and the middle of the supporting plate (21), the end part of the right side of the rotating plate (23) is attached to the surface of the guide and delivery head (103), and the rotating direction of the rotating plate rotates around the axial direction.