CN113815264A - Full-automatic handbag stringing machine - Google Patents

Abstract

The invention relates to the technical field of handbag processing equipment, and provides a full-automatic handbag stringing machine which comprises a rack, a feeding mechanism, a punching mechanism, a stringing mechanism, a chuck mechanism and a rope guiding mechanism, wherein the feeding mechanism, the punching mechanism, the chuck mechanism and the rope guiding mechanism are arranged on the rack, the feeding mechanism is provided with a conveying assembly which is arranged on the rack in a sliding manner, the punching mechanism is provided with a hole opening assembly which is arranged on the rack in a sliding manner, the hole opening assembly is provided with a hole opening position, the rope guiding mechanism, the chuck mechanism and the rope guiding mechanism are sequentially arranged, the rope guiding mechanism is symmetrically arranged on two sides of the punching mechanism, the rope guiding mechanism comprises a clamping assembly which is arranged on the rack in a sliding manner and used for clamping a rope, two positioning assemblies and a lifting assembly are arranged on the rack, each positioning assembly is provided with a first slide way which slides to the hole opening position, and an ejector pin assembly which is arranged in the first slide way in a sliding manner and is used for ejecting the rope to the hole opening position. Through the technical scheme, the problem of high cost caused by low efficiency and low yield of manual operation stringing in the related technology is solved.

Description

Full-automatic handbag stringing machine

Technical Field

The invention relates to the technical field of handbag processing equipment, in particular to a full-automatic handbag stringing machine.

Background

The handbag has multiple purposes such as providing convenience for shoppers, and can be used for promoting products or brands through patterns on the handbag by virtue of machines, the hand-held rope of the handbag in the prior art is mainly threaded through manual operation, the bag body of the handbag is placed at a threading station through a worker, holes are formed in the bag body through manual operation, then the reinforcing rivets are arranged at the positions of the holes, and the rope is threaded on the bag body. When the process is operated manually, the defects of low yield and low efficiency exist, and meanwhile, due to manual operation, large requirements on human resources are required, production cannot be performed according to large batches of orders, the yield is low due to manual operation, and the product quality is greatly influenced.

Disclosure of Invention

The invention provides a full-automatic hand bag stringing machine, which solves the problems of low manual operation stringing efficiency and high cost caused by low yield in the related technology.

The technical scheme of the invention is as follows:

the utility model provides a full-automatic handbag stringing machine, is in including frame and setting feed mechanism, the mechanism of punching, stringing mechanism, dop mechanism and pilot mechanism in the frame, feed mechanism has the conveying component who slides and set up in the frame, conveying component slides the back and is used for being located bag body on the feed mechanism is delivered to punch the mechanism top, punch the mechanism and have the trompil subassembly that slides and set up in the frame, the trompil subassembly has the trompil position, the trompil subassembly is used for it is right in the trompil position bag body trompil and reset, the pilot mechanism dop mechanism with stringing mechanism sets up in proper order, stringing mechanism symmetry sets up punch the both sides of mechanism, stringing mechanism includes that

A clamping component which is arranged on the frame in a sliding way and is used for clamping the rope,

the positioning assembly and the lifting assembly are arranged on the frame, the positioning assembly is provided with a first slide way sliding to the hole opening position,

the ejector pin assembly is arranged in the first slide in a sliding mode and used for ejecting the rope to the hole opening position.

As a further technical solution, the positioning assembly comprises

The first sliding block is arranged on the frame in a sliding manner through a first telescopic piece, the telescopic direction is consistent with the arrangement direction of the first slide way,

the second sliding block is arranged on the rack in a sliding mode through a second telescopic piece and is provided with a first clamping part, the first slide way is arranged on the first sliding block and the second sliding block, a rope guiding gap is formed between the first sliding block and the second sliding block, the clamping assembly is located above the rope guiding gap,

the rotating assemblies are provided with two rotating assemblies, the two rotating assemblies are symmetrically hinged to the first sliding block, a correction gap corresponding to the first sliding way is formed between the two rotating assemblies, the first sliding block slides and then extends into the first clamping portion, and the correction gap is used for enabling the end behind the rope mounting clamping head to be right opposite to the hole opening position.

As a further aspect, the lifting assembly comprises

The two third sliding blocks are arranged on the machine frame in a sliding manner through third telescopic pieces, are respectively positioned on the two positioning components and are respectively provided with a second clamping part, and respectively penetrate through the corresponding leading rope gaps after sliding,

the two fourth sliding blocks are arranged on the rack in a sliding mode through a fourth telescopic piece and abut against the second clamping portion after sliding, and are used for clamping the rope in the rope guiding gap in the second clamping portion,

the supporting rod is arranged on the rack in a sliding mode through a fifth telescopic piece and located between the two third sliding blocks, and the sliding direction of the supporting rod is opposite to that of the third sliding blocks.

As a further technical scheme, the ejector pin component comprises

The fifth sliding blocks are provided with two blocks, are arranged on the machine frame in a sliding way through a sixth telescopic piece and are respectively positioned at one side of the two positioning components,

and the ejection piece is arranged on the fifth sliding block, and the sixth telescopic piece is driven by the fifth sliding block to be arranged on the first slide in a sliding manner.

As a further technical scheme, the positioning assembly further comprises a clamping piece arranged on the first sliding block, and the clamping piece is used for enabling the rope to be separated from the supporting rod after the first sliding block slides.

As a further technical scheme, feed mechanism is including setting up be used for carrying the conveyer belt of bag body and the material loading sucking disc of swing setting in the frame, the material loading sucking disc is used for being vertical the placing with the bag body, conveyor components is located the top of material loading sucking disc.

As a further technical scheme, the feeding mechanism further comprises side baffles and transverse baffles arranged on the rack, the two side baffles are located on two sides of the conveying belt, the transverse baffles are located between the two side baffles, a bag storage bin is formed between the transverse baffles and the side baffles, a gap is formed between the transverse baffles and the conveying belt, and the gap is used for allowing a single bag body to pass through.

As a further technical scheme, the conveying assembly comprises a sixth sliding block which is arranged on the rack in a transverse sliding mode, and a first pneumatic clamp is vertically arranged on the sixth sliding block in a sliding mode and used for clamping the bag body on the feeding sucker.

As a further technical scheme, the punching mechanism is including setting up fixing base in the frame, the fixing base has the through-hole, the through-hole is located on the trompil position, conveyor components transports to the bag body cover of fixing base top is established the fixing base outside, the trompil subassembly slides the back and passes the through-hole, be used for the bag body trompil, reset after the trompil subassembly trompil.

As a further technical scheme, the clamping assembly comprises a second pneumatic clamp which slides along the direction of two rope guiding gaps, the second pneumatic clamp is arranged on the rack in a sliding mode through a power part, and the second pneumatic clamp is used for clamping and drawing the rope into the rope guiding gaps.

The working principle and the beneficial effects of the invention are as follows:

production handbag needs get the piece through manual operation among the prior art, the trompil, consolidate the rivet, rope baotou and wire rope, several problems can appear when manual operation, at first, efficiency is slow, manual operation needs to calibrate, step such as measurement, the waste time, consume manpower and materials, second the manual work calibrates, the measurement can lead to appearing measuring error, the wire rope deviation hole appears, lead to product quality to descend, increase the disability rate and then lead to the cost to promote, the third needle needs to be equipped with a large amount of operating personnel to mass production, cause serious manpower extravagant, operating personnel's promotion leads to product quality further to reduce simultaneously.

To above problem, design one kind through thinking and can accomplish automatically and get the automation equipment of processes such as piece, trompil, reinforcement rivet, rope baotou and wire rope, solve the problem that relies on manual operation, further promote production efficiency and product quality, simultaneously can effectual reduction in production cost, waste on the reduction manpower and materials resource.

In the invention, in order to solve the problems of low efficiency of rope threading by manual operation and high cost caused by low finished product rate in the related technology, a full-automatic handbag rope threading machine is designed, the specific implementation mode is that firstly, a bag body is taken out by a feeding mechanism, the bag body taken out by the feeding mechanism is transported to the upper part of a punching mechanism by a conveying assembly, the bag body can be sleeved on the punching mechanism after being opened by an opening piece, then, the bag body is perforated by a perforating assembly arranged in a sliding way and reset to avoid the rope threading mechanism, the rope threading mechanisms synchronously carried out are arranged at two sides of the punching mechanism, the rope is placed in a rope guiding mechanism by manual traction when being used for the first time, then, the rope in a material pile is led out by the rope guiding mechanism and transported to a clamping mechanism by a clamping assembly, the clamping mechanism is used for installing the rope into the rope threading mechanism by the clamping assembly after the clamping assembly is installed on the rope, the rope threading mechanisms on two sides firstly clamp the bag heads of the ropes in the positioning assemblies through the positioning assemblies and the lifting assemblies, the ropes of the bag heads are jacked to the hole opening positions of the bag bodies along the first slide ways through the thimble assemblies and reset to complete rope threading, and the conveying assemblies place the hand bags with finished rope threading in finished product areas and then place new bag bodies above the punching mechanisms to circulate in sequence. Can reduce the cost of labor through this scheme, simultaneously owing to be through mechanical positioning, can avoid causing inclined to one side hole phenomenon because the positioning error that artifical error caused, further promoted the quality of equipment, the prior art's of simultaneously comparing rope handling technique, this scheme has full-automatic, fixes a position accurate easy operation's characteristics simultaneously, can the efficient carry out the rope handling, increase production efficiency and product quality.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an isometric view of the cord threading mechanism of the present invention;

FIG. 3 is a schematic structural view of the rope threading mechanism of the present invention;

FIG. 4 is a schematic structural view of the rope threading mechanism according to the present invention after correcting the rope wrapping head;

in the figure: 1. a frame, 2, a feeding mechanism, 3, a punching mechanism, 4, a rope threading mechanism, 5, a clamping mechanism, 6, a rope guiding mechanism, 7, a conveying assembly, 8, a hole opening assembly, 9, a clamping assembly, 10, a positioning assembly, 11, a lifting assembly, 12, a first slide way, 13, an ejector pin assembly, 14, a first telescopic piece, 15, a first slide block, 16, a second slide block, 17, a second telescopic piece, 18, a first clamping part, 19, a rope guiding gap, 20, a rotating assembly, 21, a correcting gap, 22, a third slide block, 23, a third telescopic piece, 24, a second clamping part, 25, a fourth slide block, 26, a fourth telescopic piece, 27, a supporting rod, 28, a fifth telescopic piece, 29, a fifth slide block, 30, a sixth telescopic piece, 31, a top piece, 32, a clamping piece, 33, a conveying belt, 34, a feeding sucker, 35, a side baffle, 36, a transverse baffle, 37, a bag storage bin, 38 and a sixth slide block, 39. the pneumatic clamp comprises a first pneumatic clamp body 40, a fixed seat 41, a through hole 42 and a second pneumatic clamp body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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 inventive step, are intended to be within the scope of the present invention.

As shown in fig. 1 to 4, the present embodiment proposes

The utility model provides a full-automatic handbag stringing machine, including frame 1 and feed mechanism 2 of setting in frame 1, punching mechanism 3, stringing mechanism 4, dop mechanism 5 and pilot mechanism 6, feed mechanism 2 has the conveying component 7 of sliding setting in frame 1, conveying component 7 slides the back and is used for sending the bag body that is located feed mechanism 2 to punching mechanism 3 top, punching mechanism 3 has the trompil subassembly 8 of sliding setting in frame 1, trompil subassembly 8 has the trompil position, trompil subassembly 8 is used for trompil and reset bag body trompil in the trompil position, pilot mechanism 6, dop mechanism 5 and 4 order settings of stringing mechanism, 4 symmetries of stringing mechanism set up the both sides at punching mechanism 3, 4 of pilot mechanism include the feed mechanism 2 of setting in frame 1, punching mechanism 3, the bag body that is used for being located is opened a hole in the trompil position, the pilot mechanism 6

The clamping component 9 is arranged on the frame 1 in a sliding way and is used for clamping the rope,

a positioning component 10 and a lifting component 11, wherein the positioning component 10 has two, the two positioning components 10 and the two lifting components 11 are arranged on the frame 1, the positioning component 10 has a first slide way 12 sliding to the position of the opening,

and the ejector pin assembly 13 is arranged in the first slide way 12 in a sliding manner, and the ejector pin assembly 13 is used for ejecting the rope to the hole opening position.

Production handbag needs get the piece through manual operation among the prior art, the trompil, consolidate the rivet, rope baotou and wire rope, several problems can appear when manual operation, at first, efficiency is slow, manual operation needs to calibrate, step such as measurement, the waste time, consume manpower and materials, second the manual work calibrates, the measurement can lead to appearing measuring error, the wire rope deviation hole appears, lead to product quality to descend, increase the disability rate and then lead to the cost to promote, the third needle needs to be equipped with a large amount of operating personnel to mass production, cause serious manpower extravagant, operating personnel's promotion leads to product quality further to reduce simultaneously.

To above problem, design one kind through thinking and can accomplish automatically and get the automation equipment of processes such as piece, trompil, reinforcement rivet, rope baotou and wire rope, solve the problem that relies on manual operation, further promote production efficiency and product quality, simultaneously can effectual reduction in production cost, waste on the reduction manpower and materials resource.

In the embodiment, in order to solve the problems of low efficiency of rope threading through manual operation and high cost caused by low yield in the related technology, a full-automatic handbag rope threading machine is designed, the specific implementation mode is that firstly, a bag body is taken out through a feeding mechanism 2, the bag body taken out by the feeding mechanism 2 is transported to the upper part of a punching mechanism 3 through a conveying assembly 7, the bag body is sleeved on the punching mechanism 3 after being opened through an opening piece, then, the bag body is perforated and reset through a perforating assembly 8 arranged in a sliding mode to avoid the rope threading mechanism 4, the rope threading mechanisms 4 which are synchronously carried out are arranged on two sides of the punching mechanism 3, a rope is placed in a rope guiding mechanism 6 through manual traction when the machine is used for the first time, then, the rope in a material pile is led out through the rope guiding mechanism 6 by the rope threading mechanism 4 and is transported to a clamping mechanism 5 through a clamping assembly 9, the clamping assembly 9 is transported to the rope threading mechanism 4 after the clamping mechanism 5 is installed for the rope, the rope threading mechanisms 4 on the two sides firstly clamp the bag heads of the ropes in the positioning assemblies 10 through the positioning assemblies 10 and the lifting assemblies 11, the ropes of the bag heads are jacked to the hole opening positions of the bag bodies along the first slide ways 12 through the thimble assemblies 13 and reset to complete rope threading, and the conveying assemblies 7 place the hand bags which are finished with rope threading in finished product areas and then place new bag bodies above the punching mechanisms 3 to sequentially circulate. Can reduce the cost of labor through this scheme, simultaneously owing to be through mechanical positioning, can avoid causing inclined to one side hole phenomenon because the positioning error that artifical error caused, further promoted the quality of equipment, the prior art's of simultaneously comparing rope handling technique, this scheme has full-automatic, fixes a position accurate easy operation's characteristics simultaneously, can the efficient carry out the rope handling, increase production efficiency and product quality.

Further, the positioning assembly 10 includes

The first sliding block 15 is arranged on the frame 1 in a sliding way through a first telescopic piece 14, the telescopic direction is consistent with the arrangement direction of the first slideway 12,

a second slide block 16 which is arranged on the frame 1 in a sliding way through a second telescopic piece 17 and is provided with a first clamping part 18, a first slide way 12 is arranged on the first slide block 15 and the second slide block 16, a rope guiding gap 19 is formed between the first slide block 15 and the second slide block 16, the clamping assembly 9 is positioned above the rope guiding gap 19,

the rotating assemblies 20 are symmetrically hinged to the first sliding block 15, a correcting gap 21 corresponding to the first sliding way 12 is formed between the two rotating assemblies 20, the two rotating assemblies 20 extend into the first clamping portion 18 after the first sliding block 15 slides, and the correcting gap 21 is used for enabling the end of the rope after the clamping head is installed to be opposite to the position of the opening.

In this embodiment, in order to achieve better positioning, a positioning assembly 10 is designed, when the clamping assembly 9 clamps the rope of the toe cap to the lifting assembly 11 and the lifting assembly 11 clamps one end of the toe cap at the position of the rope guiding gap 19, the first telescopic member 14 drives the first slider 15 to slide, so that the two rotating assemblies 20 hinged on the first slider 15 rotate along the first clamping portion 18 on the second slider 16, the rope of the toe cap is clamped in the correcting gap 21 during rotation, and the irregularly placed rope of the toe cap is rotated along the rotating track to be in a form that the end of the toe cap points to the first slide way 12, and after rope correction is completed, the corrected end can be pushed to the hole opening position through the thimble assembly 13, and rope threading is completed.

The shape of the rotating component 20 in the scheme can be triangular, and after the triangular rotates, two oblique sides form a parallel correction gap 21 aligned with the first channel, so that the correction of the ferrule rope can be more convenient and faster.

Can further promote the wholeness of equipment through this scheme, make the efficiency of reeving further promote to have the characteristics of simple structure easily operation.

Further, the lifting assembly 11 comprises

The two third sliding blocks 22 are arranged on the frame 1 in a sliding manner through third telescopic parts 23, are respectively positioned on the two positioning assemblies 10, are respectively provided with second clamping parts 24, respectively penetrate through the corresponding rope guiding gaps 19 after sliding,

the fourth sliding blocks 25, which are provided with two blocks, are arranged on the frame 1 in a sliding way through the fourth telescopic piece 26, abut against the second clamping parts 24 after sliding, are used for clamping the rope in the rope guiding gap 19 in the second clamping parts 24,

and the supporting rod 27 is arranged on the machine frame 1 in a sliding mode through a fifth telescopic piece 28 and located between the two third sliding blocks 22, and the sliding direction of the supporting rod is opposite to that of the third sliding blocks 22.

In this embodiment, in order to effectively clamp the end of the rope in the correction gap 21, a lifting assembly 11 is provided, through an upper third slider 22 and a lower fourth slider 25 which are staggered, when the clamping assembly 9 clamps the telescopic clamp to the rope guiding gap 19, the third slider 22 is driven by the third telescopic member 23 to move, the second clamping portion 24 abuts against the rope to push the rope to the position of the correction gap 21, meanwhile, the fourth slider 25 moves to the correction gap 21 through the fourth telescopic member 26 and abuts against the position of the second clamping portion 24, so that the rope is clamped in the second clamping portion 24, through the support rod 27 driven by the fifth telescopic member 28, the rope is lifted by a certain height, the toe caps at both sides move to the support rod 27 simultaneously, and are finally clamped in the position of the correction gap 21, the toe caps are straightened and then threaded through the cooperation of the first slider 15 and the second slider 16, through this scheme, the positioning assembly 10 can be effectively matched, the positioning component 10 can better complete positioning processing, the positioning of the wrapping head is realized through a simple structure, the practicability and the integrity of the equipment are further improved, and the production efficiency of the equipment is increased.

Further, the thimble assembly 13 comprises

A fifth slide block 29, which has two blocks and is slidably arranged on the frame 1 through a sixth telescopic member 30, and is respectively positioned at one side of the two positioning assemblies 10,

and the top piece 31 is arranged on the fifth slide block 29, and the sixth telescopic piece 30 drives the top piece 31 to be arranged on the first slide way 12 in a sliding manner through the fifth slide block 29.

In this embodiment, the scheme is further refined, the thimble assembly 13 includes a top member 31 slidably disposed on the first slide rail 12, the top member 31 is disposed on the fifth slide block 29 and is driven by the sixth telescopic member 30, and when the top member 31 needs to move, the top member cooperates with the first slide rail 12 to push the toe cap rope located in the straightening gap 21 to the hole opening position, so as to complete the threading.

Further, the positioning assembly 10 further comprises a clamping piece 32 arranged on the first sliding block 15, and the clamping piece 32 is used for separating the rope from the supporting rod 27 after the first sliding block 15 slides.

In this embodiment, in order to avoid the potential safety hazard caused by the support rod 27 clamping the rope, the clamping piece 32 is provided, and when the rope is corrected, the clamping piece 32 can stretch and push the support rod 27 to be separated from the support rod 27, and preparation is made for the next operation. The safety and the practicability of the equipment are further improved, and the production efficiency is improved.

Further, feed mechanism 2 is including setting up the conveyer belt 33 that is used for carrying the bag body in frame 1 and swing the material loading sucking disc 34 of setting in frame 1, and material loading sucking disc 34 is used for being vertical the placing with the bag body, and conveying element 7 is located material loading sucking disc 34's top.

In this embodiment, for making the more effective transport bag body of conveying component 7 set up material loading sucking disc 34 that can the wobbling, material loading sucking disc 34 will be located the bag body on conveyer belt 33 and absorb the back and rotate and make the bag body be vertical placing, and conveying component 7 is located material loading sucking disc 34's top, transports the bag body of vertical placing to 3 positions of mechanism of punching.

Further, feed mechanism 2 still includes side shield 35 and the horizontal baffle 36 of setting in frame 1, and two side shields 35 are located conveyer belt 33 both sides, and horizontal baffle 36 is located between two side shields 35, forms storage bag storehouse 37 between horizontal baffle 36 and the side shield 35, has the gap between horizontal baffle 36 and the conveyer belt 33, and the gap is used for supplying single bag body to pass through.

In this embodiment, the rack 1 is provided with a conveyor belt 33, a feeding sucker 34, side baffles 35 and a transverse baffle 36, the conveyor belt 33 is horizontally arranged and used for conveying handbags, the two side baffles 35 are positioned at two sides of the conveyor belt 33, the transverse baffle 36 is positioned between the two side baffles 35, a bag storage bin 37 with an opening at one side is formed between the transverse baffle 36 and the side baffles 35, a gap between the transverse baffle 36 and the conveyor belt 33 can only allow a single handbag to pass through, when the handbag lifting machine works, a stack of handbags are placed in the bag storage bin 37, the shape of the bag storage bin 37 is matched with the shape of the handbag, so that the handbag can be placed and straightened, the lowermost handbag is in contact with the conveyor belt 33 below, the lowermost handbag is conveyed forwards along with the operation of the conveyor belt 33, at the moment, the rear end of the handbag above is in contact with the conveyor belt 33, but the front end is blocked by the transverse baffle 36 and cannot be conveyed forwards, therefore, the feeding action with uniform speed is realized, the feeding sucker 34 swings downwards to contact with the handbag conveyed out of the storage bin, and swings to be in a vertical state after being adsorbed, so that the requirement of punching on two sides of the handbag is met.

In the prior art, the handbag is carried in a passageway with the vertical with the help of conveyer belt 33, but is vertical because of the handbag, conveyer belt 33 and hand carry the area of contact undersize of bag, lead to carrying unstably, handbag overlapping problem around appearing easily, lead to the pay-off untimely, pay-off position inaccurate or two overlapped handbags are carried the phenomenon simultaneously, lead to punching the threading work and can't normally go on, and in this embodiment, change into horizontal transport, increased with the help of the area, it is stable to carry, the handbag can directly be placed one and piled up, realized carrying with even speed single conveyer belt 33 with the help of the gap between horizontal baffle 36 and conveyer belt 33, the mutual overlapping problem has been avoided, the unstable problem of handbag pay-off speed among the prior art has been solved, satisfy the technological requirement when the handbag punches the threading through material loading sucking disc 34.

Further, the conveying assembly 7 comprises a sixth sliding block 38 which is arranged on the rack 1 in a transverse sliding mode, and a first pneumatic clamp 39 is arranged on the sixth sliding block 38 in a vertical sliding mode and used for clamping the bag body on the feeding suction cup 34.

In this embodiment, the pneumatic clamp is vertical to slide for press from both sides and get the vertical handbag on the material loading sucking disc 34, when material loading sucking disc 34 upwards swings, the pneumatic clamp rises, for material loading sucking disc 34 abdicating, the slider horizontal slip for will press from both sides at the pneumatic clamp and get behind the handbag, remove other processes, make the process more nimble.

Further, mechanism 3 punches is including setting up fixing base 40 in frame 1, and fixing base 40 has through-hole 41, and through-hole 41 is located the trompil position, and conveying assembly 7 transports the bag body cover above fixing base 40 and establishes in the fixing base 40 outside, and trompil subassembly 8 slides the back and passes through-hole 41 for at the bag body trompil, reset behind the 8 trompil subassemblies trompil.

In this embodiment, the scheme has further been refined, sets up the fixing base 40 that has through-hole 41 on frame 1, and through-hole 41 is located the trompil position, and conveying assembly 7 transports the bag body cover above fixing base 40 and establishes in the fixing base 40 outside, and trompil subassembly 8 passes through-hole 41 after sliding for at the bag body trompil, reset after the trompil subassembly 8 trompil.

Further, the gripping assembly 9 comprises a second pneumatic gripper 42 sliding along the two rope guiding gaps 19, the second pneumatic gripper 42 is slidably arranged on the frame 1 through a power member, and the second pneumatic gripper 42 is used for gripping and drawing the rope into the rope guiding gaps 19.

In this embodiment, the scheme has further been refined, in order to make the rope more swift carry to the messenger clearance 19 in, will press from both sides the form that the subassembly 9 set up to pneumatic clamp for the process is more nimble, and production efficiency further promotes.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A full-automatic handbag stringing machine is characterized by comprising a rack (1), a feeding mechanism (2), a punching mechanism (3), a stringing mechanism (4), a clamping head mechanism (5) and a rope guiding mechanism (6) which are arranged on the rack (1), wherein the feeding mechanism (2) is provided with a conveying assembly (7) which is arranged on the rack (1) in a sliding manner, the conveying assembly (7) is used for conveying a bag body positioned on the feeding mechanism (2) to the position above the punching mechanism (3) after sliding, the punching mechanism (3) is provided with a perforating assembly (8) which is arranged on the rack (1) in a sliding manner, the perforating assembly (8) is provided with a perforating position, the perforating assembly (8) is used for perforating the bag body and resetting at the perforating position, the rope guiding mechanism (6), the clamping head mechanism (5) and the rope guiding mechanism (4) are sequentially arranged, the threading mechanisms (4) are symmetrically arranged on two sides of the punching mechanism (3), and the threading mechanisms (4) comprise

A clamping component (9) which is arranged on the frame (1) in a sliding way and is used for clamping the rope,

a positioning component (10) and a lifting component (11), wherein the positioning component (10) is provided with two positioning components (10) and two lifting components (11) are arranged on the frame (1), the positioning component (10) is provided with a first slideway (12) sliding to the hole opening position,

the ejector pin assembly (13) is arranged in the first slide way (12) in a sliding mode, and the ejector pin assembly (13) is used for ejecting the rope to the hole opening position.

2. The fully automatic handbag stringing machine as claimed in claim 1, characterized in that said positioning assembly (10) comprises

The first sliding block (15) is arranged on the frame (1) in a sliding way through a first telescopic piece (14), the telescopic direction is consistent with the arrangement direction of the first slideway (12),

the second sliding block (16) is arranged on the rack (1) in a sliding mode through a second telescopic piece (17) and is provided with a first clamping portion (18), the first slide way (12) is arranged on the first sliding block (15) and the second sliding block (16), a rope guiding gap (19) is formed between the first sliding block (15) and the second sliding block (16), and the clamping assembly (9) is located above the rope guiding gap (19),

rotating assembly (20), have two, the symmetry is articulated to be set up on first slider (15), two form between rotating assembly (20) and correspond correction clearance (21) of first slide (12), two after first slider (15) slide rotating assembly (20) stretch into first card portion (18), it is just right to correct the end behind the clearance (21) and be used for making rope installation dop the trompil position.

3. Fully automatic handbag stringing machine as claimed in claim 2, characterized in that said lifting assembly (11) comprises

The two third sliding blocks (22) are arranged on the frame (1) in a sliding manner through third telescopic pieces (23), are respectively positioned on the two positioning assemblies (10), are respectively provided with a second clamping part (24), and respectively penetrate through the corresponding rope guiding gaps (19) after sliding,

the two fourth sliding blocks (25) are arranged on the frame (1) in a sliding mode through fourth telescopic pieces (26), abut against the second clamping portion (24) after sliding and are used for clamping the rope in the rope guiding gap (19) in the second clamping portion (24),

and the supporting rod (27) is arranged on the rack (1) in a sliding manner through a fifth telescopic piece (28) and is positioned between the two third sliding blocks (22), and the sliding direction is opposite to that of the third sliding blocks (22).

4. The fully automatic handbag stringing machine as claimed in claim 2, characterized in that said thimble assembly (13) comprises

The number of the fifth sliding blocks (29) is two, the fifth sliding blocks are arranged on the rack (1) in a sliding mode through sixth telescopic pieces (30) and are respectively positioned on one side of the two positioning assemblies (10),

and the top piece (31) is arranged on the fifth sliding block (29), and the sixth telescopic piece (30) is driven by the fifth sliding block (29) to be arranged on the first slide way (12) in a sliding manner.

5. A fully automatic hand bag threading machine according to claim 3, characterized in that the positioning assembly (10) further comprises a catch (32) provided on the first slider (15), the catch (32) being used to disengage the rope from the support bar (27) after the first slider (15) slides.

6. The full-automatic handbag stringing machine as claimed in claim 1, characterized in that said feeding mechanism (2) comprises a conveyor belt (33) arranged on said frame (1) for conveying the bag body and a feeding suction cup (34) swing-arranged on the frame (1), said feeding suction cup (34) is used for vertically placing the bag body, said conveying assembly (7) is located above said feeding suction cup (34).

7. The full-automatic hand bag stringing machine according to claim 6, characterized in that the feeding mechanism (2) further comprises a side baffle (35) and a cross baffle (36) arranged on the frame (1), two side baffles (35) are arranged on two sides of the conveying belt (33), the cross baffle (36) is arranged between two side baffles (35), a bag storage bin (37) is formed between the cross baffle (36) and the side baffles (35), and a gap is arranged between the cross baffle (36) and the conveying belt (33) and is used for a single bag body to pass through.

8. The full-automatic hand bag stringing machine according to claim 6, characterized in that the conveying assembly (7) comprises a sixth slide block (38) which is arranged on the frame (1) in a transverse sliding manner, and a first pneumatic clamp (39) is arranged on the sixth slide block (38) in a vertical sliding manner and used for clamping the bag body on the feeding suction cup (34).

9. The full-automatic handbag stringing machine as claimed in claim 1, characterized in that said perforating mechanism (3) comprises a fixing seat (40) disposed on said frame (1), said fixing seat (40) has a through hole (41), said through hole (41) is located at said perforating position, said conveying assembly (7) is transported to the bag body above said fixing seat (40) and covered outside said fixing seat (40), said perforating assembly (8) slides and passes through said through hole (41) for perforating on the bag body, said perforating assembly (8) resets after perforating.

10. The fully automatic threading machine for handbag according to claim 1 characterized by that, said gripping assembly (9) comprises a second pneumatic gripper (42) sliding along the direction of two rope guiding gaps (19), said second pneumatic gripper (42) being slidingly arranged on said frame (1) by power means, said second pneumatic gripper (42) being used to grip and draw the rope into the rope guiding gaps (19).

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