CN109322064A - Automatic cap seaming machine - Google Patents

Abstract

The invention belongs to technical fields of lockstitching a border, and in particular to a kind of automatic cap seaming machine.A kind of automatic cap seaming machine according to the present invention, there are table assembly, lock seaming component, fabric rotary components and rim charge conveying assembly through reasonable settings, when work, it can quickly quickly be lockstitched a border to fabric using rim charge, simultaneously, due to the setting of fabric rotary components, when expecting that four sides are lockstitched a border over there, it can achieve the purpose that four sides are lockstitched a border without artificial rotation fabric, high degree of automation greatly meets industrial requirement, simultaneously, compared to artificial lock seaming, lock seaming accuracy is big, and fabric yields is high.

Description

Automatic cap seaming machine

Technical field

The invention belongs to technical fields of lockstitching a border, and in particular to a kind of automatic cap seaming machine.

Background technique

Cap seaming machine is a kind of mechanical equipment for sewing, is generally used for garment production, the material clothing that needs are lockstitched a border It is sutured, mechanical stitch is more quickly and more neat than manual suture.

By the development of many years, the efficiency of cap seaming machine is significantly improved, but there are some problems.Traditional Cap seaming machine needs staff to operate with, more troublesome, while the efficiency lockstitched a border is lower, lavishes labor on, inconvenient to use, Process is set to bring certain influence to people.

So providing automatic cap seaming machine will solve the problems, such as us.

Summary of the invention

The purpose of the present invention is to provide a kind of automatic cap seaming machines, and the automatic cap seaming machine lock seaming efficiency is fast, the degree of automation Height greatly meets industrial needs.

The invention is realized in this way a kind of automatic cap seaming machine, the automatic lock seaming includes table assembly, lock seaming group Part, fabric rotary components and rim charge conveying assembly.

Wherein, the table assembly includes the first workbench, the second workbench and third workbench；The third work Make platform to be set between first workbench and second workbench；First workbench is equipped with the first fabric conveying dress It sets；Second workbench is equipped with the second fabric conveyer；

The lock seaming component includes a serging device and a working panel；The serging device works set on the third On platform；The working panel is set to the serging device side, and be set to first workbench and second workbench it Between, and with first workbench and second workbench on the same horizontal plane；

The fabric rotary components are set to the top of the serging device, and are right against the working panel setting；

The rim charge conveying assembly is set on the third workbench, and is set to the side of the serging device；

Under working condition, fabric is transported to the lock seaming through first fabric conveyer on first workbench On the working panel in component, rim charge is transported on the working panel by the rim charge conveying assembly；It is described at this time Serging device carries out lock seaming processing to fabric using rim charge, and after the completion of the lock seaming of the wherein side of fabric, fabric enters described the On two workbench, then the fabric rotary components work, fabric is rotated and is again returned on the working panel, Jin Ersuo It states serging device again to lockstitch a border to fabric side using rim charge, repeat the above steps, after the completion of the lock seaming of four side of fabric, face Material is transferred out by the second fabric conveyer on the second workbench.It is to be understood that on the serging device opposite During material is lockstitched a border, fabric enters on the working panel by first fabric conveyer, lockstitches a border at this time Device lockstitches a border to fabric, and then described by being pulled into for the second fabric conveyer on second workbench On second workbench, to fabric completely on the second workbench, fabric is rotated by 90 ° by fabric rotary components, at this point, institute The second fabric conveyer reversion conveying direction is stated, fabric is transmitted back on the working panel, and then continue to lockstitch a border.

Preferably, the first fabric conveyer includes the first conveyor-belt apparatus and the first driving motor；Described first passes Work-feeding means are set on first workbench；First driving motor be set to first workbench side, and with it is described First conveyor-belt apparatus is connected, for driving first conveyor-belt apparatus to operate；Second fabric conveyer includes second Conveyor-belt apparatus and the first driving motor；Second conveyor-belt apparatus is set on second workbench；Second driving Motor is set to second workbench side, and is connected with second conveyor-belt apparatus, for driving second conveyer belt Device running.It is to be understood that fabric passes through first face during serging device lockstitches a border to fabric Material conveying device enters on the working panel, and serging device lockstitches a border to fabric at this time, and then passes through second work Make being pulled on second workbench for the second fabric conveyer on platform, works to fabric completely into second On platform, fabric is rotated by 90 ° by fabric rotary components, at this point, the second driving motor of second fabric conveyer inverts Outbound course, and then second conveyor-belt apparatus reversion conveying direction being connected with second driving motor, fabric is defeated It returns on the working panel.

Preferably, the serging device is a fabric sewing machine；The fabric sewing machine is set on the third workbench. More specifically, the sewing machine includes that the sewing machine work head and one for carrying out sewing-serging to fabric is used to drive institute State the sewing machine body of sewing machine machine work head work；The sewing machine work head is set to the sewing machine body upper end, and its It is right against setting above the working panel；The sewing machine body is set to above the third workbench.

Preferably, the fabric rotary components include fixed mechanism, elevating mechanism and rotating mechanism；The fixed mechanism Set on the serging device side, and it is connected to above the third workbench；The elevating mechanism is set to the fixed mechanism Upper end, and be connected with the fixed mechanism；The rotating mechanism is set to one of the elevating mechanism far from the fixed mechanism On side.

Preferably, the elevating mechanism includes fixed panel, lifting panel and lifting drive；The fixed panel It is fixedly connected on the side above the fixed mechanism；The lifting panel is slidably connected at the fixed panel far from described On the side of fixed mechanism；The lifting drive be set between the fixed panel and the lifting panel, and with it is described Lifting panel is connected with the fixed panel, for driving the lifting panel to go up and down.More specifically, the fixed mechanism is One fixed bracket；The fixed bracket includes a vertical columns and two horizontal connection columns；The vertical columns are set to described Serging device side, and it is fixedly connected on the top of the third workbench；Two horizontal connection columns are set to the serging device Top, and be connected to the upper end of the vertical columns side by side；The stationary plane board ends are connected to two and are arranged side by side The horizontal connection column on；Further, the fixed panel is equipped with vertical sliding far from the side of the horizontal connection column Rail；One sliding part is slidably connected in the vertical rails, and is connected with the lifting panel；Further, the vertical cunning There are two rail is set, the sliding part correspondence also is provided with two；Further, the lifting drive is a power drive gas Cylinder；The power drive cylinder is set between the fixed panel and the lifting panel；More specifically, the power drive Cylinder is fixed on the fixed panel, and a lifting desk connector is arranged on its power output shaft；The lifting panel Connector one end is connected to the lifting panel, for driving the lifting panel to go up and down.

Preferably, the rotating mechanism includes a vertical shaft, rotation shaft coupling device, shaft driving device and a fabric Rotate swing rod；The vertical shaft is rotatably connected on the lifting panel far from the stationary plane by the rotation shaft coupling device On the side of plate；The shaft driving device is fixed on the lifting panel side, and is set to above the vertical shaft, and with The vertical shaft connection, for driving the vertical shaft rotation；The fabric rotation swing rod is set under the vertical shaft End, and connect with the vertical shaft.More specifically, the rotation shaft coupling device includes a shaft connector；Described turn Shaft coupling piece one end is fixedly connected on the side of the lifting panel；The middle part of the shaft connector is connected equipped with a shaft Hole, the vertical shaft pass through shaft connecting hole rotation and are set on the shaft connector.More specifically, the fabric Rotation swing rod include a horizontal swing rod and one perpendicular to horizontal swing rod vertical swing rod；Wherein, the horizontal swing rod and the face Expect that conveying direction is parallel；One end of the horizontal swing rod and the vertical swing rod is both connected to the lower end of the vertical shaft； Under working condition, fabric side after the completion of serging device lock seaming through entering on the second workbench, at this point, vertical shaft is by rising Descending mechanism drives and then fabric is driven to rotate swing rod downlink, and shaft driving device drives vertical shaft rotation, and then drives fabric Swing rod rotation is rotated, then the horizontal swing rod in fabric rotation swing rod drives fabric to be rotated by 90 °, at this point, in the second workbench Second fabric conveyer inverts outbound course, and fabric is back to and continues to lockstitch a border on working panel, rotating mechanism is at this time It resets, after the completion of lockstitching a border again, fabric rotation swing rod drives downlink through vertical shaft again and rotates, at this point, fabric rotates Vertical swing rod in swing rod turns to another direction fabric rotation, and then continues through serging device and lockstitch a border, and is then again introduced into Onto the second work；It repeats the above steps again, after the completion of the lock seaming of four side of fabric, fabric is through the second face on the second workbench Material conveying device is sent out, and completes a workflow.

Preferably, the shaft driving device includes a driving motor and transmission joint；The driving motor is set It is connected in the lifting panel side, and with the lifting panel；The transmission joint is set to the driving motor and institute It states between vertical shaft, and is connected with the vertical shaft and the driving motor；It is to be understood that the driving motor is logical The transmission joint is crossed to drive the vertical shaft rotation, and then the fabric rotation swing rod is driven to swing；More have Body, the transmission joint includes motor-driven gear and rotating shaft transmission gear；The motor-driven gear is sheathed on On the power output shaft of the driving motor；The rotating shaft transmission geared sleeve is set to the upper end of the vertical shaft；The motor Transmission gear and rotating shaft transmission gear engagement connection；More specifically, in order to guarantee that the vertical shaft accurately drives The fabric rotation swing rod swings 90 °, with this accurate rotation fabric, the rotating shaft transmission gear generally cam-like.More have Body, piece cover is equipped with a protective shell outside the elevating mechanism and the fabric rotating mechanism.

Preferably, the rim charge conveying assembly includes one side material conveying device and an edge-trim slitting device；The rim charge Conveying device includes transfer station, drive roll, driven roller and power drive unit；The transfer station is set to described the On three workbench and its rim charge output end is connected to the working panel；The drive roll is set to above the transfer station；Institute Driven roller is stated to be set to below the transfer station；The drive roll and the driven roller abut against；The power drive group Part is set to below the transfer station, and is connected with the drive roll, to drive the drive roll to work；The rim charge is cut Device is cut on one end of transfer station output rim charge.More specifically, the working panel is logical equipped with a strip One end of slot, the transfer station output rim charge passes through the strip through slot and is connected on the working panel；Further, it is Convenient for carrying out exclusion processing to the waste material generated after serging device lock seaming, a drainage conduit is equipped with below the strip through slot Road；The drainage line is set on the third workbench；More specifically, the power drive unit includes a power electric Machine and a transmission belt, the power motor can be servo motor, be also possible to stepper motor；The power motor is set to the biography It send below platform, and is fixed on the third workbench；One end of the transmission belt is set in described drive roll one end, another End cap is located at one end of the power motor.

Preferably, the edge-trim slitting device includes rim charge cutter and a telescopic cylinder；The telescopic cylinder is set to Below the transfer station；The rim charge cutter be set to telescopic cylinder power output end side, and with the telescopic cylinder Power output end be connected.Under working condition, the telescopic cylinder drives the rim charge cutter intermittence to move back and forth, Rim charge is cut off with this.More specifically, the part that the transfer station is right against the telescopic cylinder is equipped with a cutter accommodation groove； The rim charge cutter are set to the inside of the cutter accommodation groove.

Preferably, the edge-trim slitting device further includes having one to press cylinder for compress rim charge；It is described to press cylinder On one end of transfer station output rim charge.More specifically, described to press there are two cylinder sets, press gas described in two Cylinder is respectively arranged on the two sides of the cutter accommodation groove；It is to be understood that the setting for pressing cylinder is in order in rim charge Rim charge is compressed when cutter cut rim charge, cuts rim charge convenient for rim charge cutter；You need to add is that the compression gas The power output shaft of cylinder is connected in the transfer station, and when working condition, the compression cylinder downlink compresses rim charge.

Preferably, lock seaming processing is carried out in order to meet a variety of various sizes of fabrics, the table mechanism further includes having 4th workbench；The side of 4th workbench is connected to first workbench and second workbench, and described Four workbench and first workbench and second workbench are on the same horizontal plane.

A kind of technical effect of automatic cap seaming machine of the invention are as follows:

A kind of automatic cap seaming machine according to the present invention has table assembly, lock seaming component, fabric through reasonable settings Rotary components and rim charge conveying assembly when work, can quickly quickly lockstitch a border to fabric using rim charge, simultaneously as The setting of fabric rotary components when expecting that four sides are lockstitched a border over there, can reach the lock seaming of four sides without artificial rotation fabric Purpose, high degree of automation greatly meets industrial requirement, meanwhile, compared to artificial lock seaming, lock seaming accuracy is big, face Expect that yields is high.

Detailed description of the invention

Fig. 1 is a kind of automatic cap seaming machine overall schematic according to the present invention；

Fig. 2 is table assembly schematic diagram in a kind of automatic cap seaming machine embodiment according to the present invention；

Fig. 3 is fabric rotary components structural schematic diagram in a kind of automatic cap seaming machine embodiment according to the present invention；

Fig. 4 is that lock seaming component and rim charge conveying assembly structure are shown in a kind of automatic cap seaming machine embodiment according to the present invention It is intended to.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

It should be noted that it can be directly another when element is referred to as " being fixed on " or " being set to " another element On one element or it may be simultaneously present centering elements.When an element is known as " being connected to " another element, it can To be directly to another element or may be simultaneously present centering elements.When an element is known as " being fixedly connected " When on the other element.It can be the modes such as welding or bonding and links together.

Attached Fig. 1 to Fig. 4 is please referred to, is a preferred embodiment of the invention, embodiment disclosed by the invention is realized in , a kind of automatic cap seaming machine, the automatic lock seaming includes table assembly 1, lock seaming component 2, fabric rotary components 3 and rim charge Conveying assembly 4.

Wherein, the table assembly 1 includes the first workbench 11, the second workbench 12 and third workbench 13；Institute Third workbench 13 is stated to be set between first workbench 11 and second workbench 12；It is set on first workbench 11 There is the first fabric conveyer；Second workbench 12 is equipped with the second fabric conveyer；

The lock seaming component 2 includes a serging device 21 and a working panel 22；The serging device 21 is set to described On third workbench 13；The working panel 22 is set to 21 side of serging device, and is set to 11 He of the first workbench Between second workbench 12, and with first workbench 11 and second workbench 12 on the same horizontal plane；

The fabric rotary components 3 are set to the top of the serging device 21, and are right against the working panel 22 and are arranged；

The rim charge conveying assembly 4 is set on the third workbench 13, and is set to the side of the serging device 21；

Under working condition, fabric is transported to the lock through first fabric conveyer on first workbench 11 On the working panel 22 in side component 2, rim charge is transported on the working panel 22 by the rim charge conveying assembly 4； The serging device 21 carries out lock seaming processing to fabric using rim charge at this time, after the completion of the lock seaming of the wherein side of fabric, fabric Into on second workbench 12, then the fabric rotary components 3 work, and fabric is rotated and again returns to the work On panel 22, and then the serging device 21 again lockstitches a border to fabric side using rim charge, repeats the above steps, to fabric After the completion of the lock seaming of four sides, fabric is transferred out by the second fabric conveyer on the second workbench 12.It is to be understood that During the serging device 21 lockstitches a border to fabric, fabric enters described by first fabric conveyer On working panel 22, serging device 21 lockstitches a border to fabric at this time, and then by the second face on second workbench 12 Material conveying device is pulled on second workbench 12, to fabric completely on the second workbench 12, fabric Fabric is rotated by 90 ° by rotary components 3, at this point, second fabric conveyer inverts conveying direction, fabric is transmitted back to institute It states on working panel 22, and then continues to lockstitch a border.

Preferably, the first fabric conveyer includes the first conveyor-belt apparatus 111 and the first driving motor 112；It is described First conveyor-belt apparatus 111 is set on first workbench 11；First driving motor 112 is set to first workbench 11 sides, and be connected with first conveyor-belt apparatus 111, for driving first conveyor-belt apparatus 111 to operate；Second face Material conveying device includes the second conveyor-belt apparatus 121 and the first driving motor 112；Second conveyor-belt apparatus 121 is set to On second workbench 12；Second driving motor is set to 12 side of the second workbench, and transmits with described second Band device 121 is connected, for driving second conveyor-belt apparatus 121 to operate.It is to be understood that in the serging device 21 During lockstitching a border to fabric, fabric enters on the working panel 22 by first fabric conveyer, this When serging device 21 lockstitch a border to fabric, and then by the traction of the second fabric conveyer on second workbench 12 It enters on second workbench 12, to fabric completely on the second workbench 12, fabric rotary components 3 revolve fabric It turn 90 degrees, at this point, the second driving motor of second fabric conveyer inverts outbound course, and then is driven with described second Connected second conveyor-belt apparatus 121 of dynamic motor inverts conveying direction, and fabric conveying is back on the working panel 22.

Preferably, the serging device 21 is a fabric sewing machine；The fabric sewing machine is set to the third workbench On 13.More specifically, the sewing machine includes that the sewing machine work head 211 and one for carrying out sewing-serging to fabric is used In the sewing machine body 212 for driving the sewing machine machine work head work；The sewing machine work head 211 is set to the sewing machine 212 upper end of ontology, and it is right against above the working panel 22 and is arranged；The sewing machine body 212 is set to the third work Make 13 top of platform.

Preferably, the fabric rotary components 3 include fixed mechanism 31, elevating mechanism 32 and rotating mechanism 33；It is described Fixed mechanism 31 is set to 21 side of serging device, and is connected to 13 top of third workbench；The elevating mechanism 32 It is connected set on the upper end of the fixed mechanism 31, and with the fixed mechanism 31；The rotating mechanism 33 is set to the elevator On side of the structure 32 far from the fixed mechanism 31.

Preferably, the elevating mechanism 32 includes fixed panel 321, lifting panel 322 and lifting drive 323； The fixed panel 321 is fixedly connected on the side of 31 top of fixed mechanism；The lifting panel 322 is slidably connected at On side of the fixed panel 321 far from the fixed mechanism 31；The lifting drive 323 is set to the fixed panel Between 321 and the lifting panel 322, and it is connected with the lifting panel 322 and the fixed panel 321, for driving Lifting panel 322 is stated to go up and down.More specifically, the fixed mechanism 31 is a fixed bracket；The fixed bracket includes one Vertical columns 311 and two horizontal connection columns 312；The vertical columns 311 are set to 21 side of serging device, and fixed company It connects in the top of the third workbench 13；Two horizontal connection columns 312 are set to the top of the serging device 21, and connect side by side It connects in the upper end of the vertical columns 311；321 both ends of fixed panel are connected to two levels arranged side by side On connecting column 312；Further, the fixed panel 321 is equipped with vertical rails far from the side of the horizontal connection column 312 3211；One sliding part 3212 is slidably connected in the vertical rails 3211, and is connected with the lifting panel 322；Further , there are two the vertical rails 3211 are set, the correspondence of sliding part 3212 also is provided with two；Further, the lifting Driving device 323 is a power drive cylinder；The power drive cylinder is set to the fixed panel 321 and the lifting panel Between 322；More specifically, the power drive cylinder is fixed on the fixed panel 321, and is covered on its power output shaft Equipped with lifting 322 connector of panel；Described 322 connector one end of lifting panel is connected to the lifting panel 322, for driving The lifting panel 322 is moved to go up and down.

Preferably, the rotating mechanism 33 includes a vertical shaft 331, rotation shaft coupling device 332, shaft driving device 333 and one fabric rotate swing rod 334；The vertical shaft 331 is rotatably connected on the liter by the rotation shaft coupling device 332 It drops on side of the panel 322 far from the fixed panel 321；The shaft driving device 333 is fixed on the lifting panel 322 Side, and it is set to 331 top of vertical shaft, and connect with the vertical shaft 331, for driving the vertical shaft 331 rotations；The fabric rotation swing rod 334 is set to vertical 331 lower end of shaft, and connect with the vertical shaft 331.More For specifically, the rotation shaft coupling device 332 includes a shaft connector；Shaft connector one end is fixedly connected on institute On the side for stating lifting panel 322；The middle part of the shaft connector is equipped with a shaft connecting hole, and the vertical shaft 331 is worn The shaft connecting hole rotation is crossed to be set on the shaft connector.More specifically, the fabric rotation swing rod 334 includes one Horizontal swing rod 3341 and one perpendicular to horizontal swing rod 3341 vertical swing rod 3342；Wherein, the horizontal swing rod 3341 with it is described Fabric conveying direction is parallel；One end of the horizontal swing rod 3341 and the vertical swing rod 3342 is both connected to described vertical turn The lower end of axis 331；Under working condition, fabric side enters on the second workbench 12 after the completion through the lock seaming of serging device 21, this When, vertical shaft 331 drives by elevating mechanism 32 and then fabric is driven to rotate 334 downlink of swing rod, 333 band of shaft driving device It moves vertical shaft 331 to rotate, and then fabric rotation swing rod 334 is driven to rotate, then the horizontal swing rod in fabric rotation swing rod 334 3341 drive fabrics are rotated by 90 °, at this point, the second fabric conveyer in the second workbench 12 inverts outbound course, by fabric It is back on working panel 22 and continues to lockstitch a border, rotating mechanism resets at this time, and after the completion of lockstitching a border again, fabric rotates swing rod 334 drive downlink through vertical shaft 331 again and rotate, at this point, fabric rotates the vertical swing rod 3342 in swing rod 334 for fabric Rotation is turned to another direction, and then is continued through serging device 21 and lockstitched a border, and is then re-introduced into the second work；It repeats again Above-mentioned steps, after the completion of the lock seaming of four side of fabric, fabric is sent out through the second fabric conveyer on the second workbench 12, Complete a workflow.

Preferably, the shaft driving device 333 includes a driving motor 3331 and transmission joint；The driving Motor 3331 is set to 322 side of lifting panel, and is connected with the lifting panel 322；The transmission joint is set to Between the driving motor 3331 and the vertical shaft 331, and with 3331 phase of the vertical shaft 331 and the driving motor Even；It is to be understood that the driving motor 3331 drives 331 turns of the vertical shaft by the transmission joint It is dynamic, and then the fabric rotation swing rod 334 is driven to swing；More specifically, the transmission joint includes motor drive Gear 3332 and rotating shaft transmission gear 3333；The power that the motor-driven gear 3332 is sheathed on the driving motor 3331 is defeated On shaft；The rotating shaft transmission gear 3333 is sheathed on the upper end of the vertical shaft 331；3332 He of motor-driven gear The engagement of rotating shaft transmission gear 3333 connection；More specifically, in order to described in guaranteeing that the vertical shaft 331 accurately drives Fabric rotates swing rod 334 and swings 90 °, with this accurate rotation fabric, the rotating shaft transmission gear 3333 generally cam-like.More Specifically, the elevating mechanism 32 and 33 outside piece cover of the fabric rotating mechanism are equipped with a protective shell.

Preferably, the rim charge conveying assembly 4 includes one side material conveying device 41 and an edge-trim slitting device 42；It is described Rim charge conveying device 41 includes transfer station 411, drive roll 412, driven roller 413 and power drive unit；The transmission Platform 411 is set on the third workbench 13 and its rim charge output end is connected to the working panel 22；The active rolling Cylinder 412 is set to 411 top of transfer station；The driven roller 413 is set to 411 lower section of transfer station；The drive roll 412 and the driven roller 413 abut against；The power drive assem is set to 411 lower section of the transfer station, and with the active Roller 412 is connected, to drive the drive roll 412 to work；It is defeated that the edge-trim slitting device 42 is set to the transfer station 411 Out on one end of rim charge.More specifically, the working panel 22 is equipped with a strip through slot 221, and the transfer station 411 is defeated One end of rim charge passes through the strip through slot 221 and is connected on the working panel 22 out；Further, for the ease of to institute It states the waste material generated after serging device 21 is lockstitched a border and carries out exclusion processing, be equipped with a drainage line 23 below the strip through slot 221； The drainage line 23 is set on the third workbench 13；More specifically, the power drive unit includes a power Motor 414 and a transmission belt, the power motor 414 can be servo motor, be also possible to stepper motor；The power motor 414 are set to 411 lower section of transfer station, and are fixed on the third workbench 13；One end of the transmission belt is set in institute 412 one end of drive roll is stated, the other end is set in one end of the power motor 414.

Preferably, the edge-trim slitting device 42 includes rim charge cutter and a telescopic cylinder 421；The telescopic cylinder 421 are set to 411 lower section of transfer station；The rim charge cutter be set to the 421 power output end side of telescopic cylinder, and with The power output end of the telescopic cylinder 421 is connected.Under working condition, the telescopic cylinder 421 drives the rim charge to cut Cutter intermittence moves back and forth, and cuts off rim charge with this.More specifically, the transfer station 411 is right against the telescopic cylinder 421 Part be equipped with a cutter accommodation groove 4111；The rim charge cutter are set to the inside of the cutter accommodation groove 4111.

Preferably, the edge-trim slitting device 42 further includes one pressing cylinder 422 for compress rim charge；It is described to press gas Cylinder 422 is set on one end of the transfer station 411 output rim charge.More specifically, described to press there are two cylinder 422 sets, two Press the two sides that cylinder 422 is respectively arranged on the cutter accommodation groove 4111 described in a；It is to be understood that described press cylinder 422 setting is to cut rim charge to compress rim charge when rim charge cutter cut rim charge convenient for rim charge cutter；It needs It to be supplemented, the power output shaft of the compression cylinder is connected in the transfer station 411, when working condition, the compression Cylinder downlink compresses rim charge.

Preferably, lock seaming processing is carried out in order to meet a variety of various sizes of fabrics, the table mechanism further includes having 4th workbench 14；The side of 4th workbench 14 is connected to first workbench 11 and second workbench 12, And the 4th workbench 14 with first workbench 11 and second workbench 12 on the same horizontal plane.

A kind of technical effect of automatic cap seaming machine of the invention are as follows:

A kind of automatic cap seaming machine according to the present invention has table assembly, lock seaming component, fabric through reasonable settings Rotary components and rim charge conveying assembly when work, can quickly quickly lockstitch a border to fabric using rim charge, simultaneously as The setting of fabric rotary components when expecting that four sides are lockstitched a border over there, can reach the lock seaming of four sides without artificial rotation fabric Purpose, high degree of automation greatly meets industrial requirement, meanwhile, compared to artificial lock seaming, lock seaming accuracy is big, face Expect that yields is high.

The foregoing is merely preferred embodiments of the present invention, structure is not limited to the above-mentioned shape enumerated, it is all Made any modifications, equivalent replacements, and improvements etc. within the spirit and principles in the present invention, should be included in protection of the invention Within the scope of.

Claims (10)

1. automatic cap seaming machine, it is characterised in that: the automatic lock seaming includes table assembly, lock seaming component, fabric rotation group Part and rim charge conveying assembly；

Wherein, the table assembly includes the first workbench, the second workbench and third workbench；The third workbench Between first workbench and second workbench；First workbench is equipped with the first fabric conveyer； Second workbench is equipped with the second fabric conveyer；

The lock seaming component includes a serging device and a working panel；The serging device is set to the third workbench On；The working panel is set to the serging device side, and is set between first workbench and second workbench, And with first workbench and second workbench on the same horizontal plane；

The fabric rotary components are set to the top of the serging device, and are right against the working panel setting；

The rim charge conveying assembly is set on the third workbench, and is set to the side of the serging device；

Under working condition, fabric is transported to the lock seaming component through first fabric conveyer on first workbench In the working panel on, rim charge is transported on the working panel by the rim charge conveying assembly；The lock seaming at this time Device carries out lock seaming processing to fabric using rim charge, and after the completion of the lock seaming of the wherein side of fabric, fabric enters second work Make on platform, then the fabric rotary components work, fabric is rotated and is again returned on the working panel, and then the lock Side device again lockstitches a border to fabric side using rim charge, repeats the above steps, and after the completion of the lock seaming of four side of fabric, fabric is logical The second fabric conveyer crossed on the second workbench transfers out.

2. automatic cap seaming machine according to claim 1, it is characterised in that: the first fabric conveyer includes the first conveyer belt Device and the first driving motor；First conveyor-belt apparatus is set on first workbench；First driving motor is set It is connected in first workbench side, and with first conveyor-belt apparatus, for driving first conveyor-belt apparatus to transport Make；Second fabric conveyer includes the second conveyor-belt apparatus and the first driving motor；Second conveyor-belt apparatus is set to On second workbench；Second driving motor is set to second workbench side, and fills with second conveyer belt Set it is connected, for driving second conveyor-belt apparatus to operate.

3. automatic cap seaming machine according to claim 1, it is characterised in that: the serging device is a fabric sewing machine；It is described Fabric sewing machine is set on the third workbench.

4. automatic cap seaming machine according to claim 1, it is characterised in that: the fabric rotary components include fixed mechanism, Elevating mechanism and rotating mechanism；The fixed mechanism is set to the serging device side, and is connected on the third workbench Side；The elevating mechanism is set to the upper end of the fixed mechanism, and is connected with the fixed mechanism；The rotating mechanism is set to institute It states on side of the elevating mechanism far from the fixed mechanism.

5. automatic cap seaming machine according to claim 4, it is characterised in that: the elevating mechanism includes fixed panel, lifting Panel and lifting drive；The fixed panel is fixedly connected on the side above the fixed mechanism；The lifting face Plate is slidably connected on the side of the fixed panel far from the fixed mechanism；The lifting drive is set to the fixation Between panel and the lifting panel, and it is connected with the lifting panel and the fixed panel, for driving the lifting face Plate lifting.

6. automatic cap seaming machine according to claim 5, it is characterised in that: the rotating mechanism includes a vertical shaft, turns Shaft connector, shaft driving device and a fabric rotate swing rod；The vertical shaft is rotated by the rotation shaft coupling device It is connected on the lifting side of the panel far from the fixed panel；The shaft driving device is fixed on the lifting panel Side, and be set to above the vertical shaft, and connect with the vertical shaft, for driving the vertical shaft rotation；Institute It states fabric rotation swing rod and is set to the vertical shaft lower end, and connect with the vertical shaft.

7. automatic cap seaming machine according to claim 6, it is characterised in that: the shaft driving device includes a driving motor And transmission joint；The driving motor is set to the lifting panel side, and is connected with the lifting panel；The transmission Attachment device be set between the driving motor and the vertical shaft, and with the vertical shaft and the driving motor phase Even.

8. automatic cap seaming machine according to claim 1, it is characterised in that: the rim charge conveying assembly includes rim charge conveying Device and an edge-trim slitting device；The rim charge conveying device includes transfer station, drive roll, driven roller and power drive Device；The transfer station is set on the third workbench and its rim charge output end is connected to the working panel；It is described Drive roll is set to above the transfer station；The driven roller is set to below the transfer station；The drive roll and described Driven roller abuts against；The power drive assem is set to below the transfer station, and is connected with the drive roll, to drive Move the drive roll work；The edge-trim slitting device is set on one end of transfer station output rim charge.

9. automatic cap seaming machine according to claim 8, it is characterised in that: the edge-trim slitting device includes rim charge cutter With a telescopic cylinder；The telescopic cylinder is set to below the transfer station；The rim charge cutter are dynamic set on the telescopic cylinder Power output end side, and be connected with the power output end of the telescopic cylinder.

10. automatic cap seaming machine according to claim 9, it is characterised in that: the edge-trim slitting device further includes having one to be used for Compress rim charge presses cylinder；The cylinder that presses is on one end of transfer station output rim charge.