CN210504582U - Cotton automatic feeding of bubble of cotton kludge of ribbon bubble - Google Patents

Abstract

The utility model provides a cotton automatic feeding of bubble of cotton kludge of ribbon bubble belongs to advanced manufacturing and automatic technical field, including the cotton blowing chuck subassembly of bubble, the cotton conveying platform of bubble, the cotton material subassembly, apron subassembly, connect material subassembly supporting seat and the cotton basement membrane separable set of bubble, the apron subassembly sets up on the cotton material subassembly that connects of bubble, the cotton conveying platform of bubble is located the cotton blowing chuck subassembly of bubble and the cotton material subassembly that connects of bubble, it is cotton to be equipped with the bubble on the cotton blowing chuck subassembly of bubble, the cotton basement membrane separable set of bubble can be with the cotton basement membrane separation of bubble and convolute. Cotton automatic feeding of bubble of ribbon bubble cotton kludge, structural design is reasonable, convenient to use can be automatically with the cotton basement membrane of bubble and the cotton separation of bubble to the automatic cotton transportation of bubble that carries on has saved loaded down with trivial details manual work and has carried out the process of bubble cotton and the separation of the cotton basement membrane of bubble, has saved the manpower, has improved work efficiency, has reduced the manufacturing cost of enterprise, can satisfy the needs of enterprise large-scale production.

Description

Cotton automatic feeding of bubble of cotton kludge of ribbon bubble

Technical Field

The utility model belongs to the technical field of advance manufacturing and automation, specifically, relate to a cotton automatic feeding of bubble of ribbon bubble cotton kludge.

Background

With the development of economy and the progress of society, in the production process of automobiles, wiring harness bundling operation is often required, wherein the wiring harness generally comprises a binding belt and a stub bar matched with the binding belt, according to the use requirement of automobile production, the binding belt is generally required to be correspondingly inserted into the stub bar, and finally the corresponding wiring harness is obtained to be provided for customers.

At present, the splicing assembly of the ribbon and the stub bar is completed manually, when workers splice the ribbon and the stub bar, the front and back of the ribbon and the stub bar need to be distinguished by human eyes, and then the corresponding splicing assembly is carried out, so that the assembly efficiency is low, the labor intensity of the workers is high, the corresponding production cost is high, and the production requirement of enterprises on industrial automation cannot be effectively met.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a cotton automatic feeding of bubble of cotton kludge of ribbon bubble has solved ribbon and the cotton assembling process of bubble, how will steep cotton and the cotton basement membrane autosegregation's of bubble problem.

The technical scheme is as follows: the utility model provides a cotton automatic feeding of bubble of cotton kludge of ribbon bubble, including the cotton blowing chuck subassembly of bubble, the cotton conveying platform of bubble, the cotton material subassembly, the apron subassembly that connects of bubble, connect material subassembly supporting seat and the cotton basement membrane isolating component of bubble, the bubble is cotton connects the material subassembly setting on connecing the material subassembly supporting seat, the apron subassembly sets up on the cotton material subassembly that connects of bubble, the cotton conveying platform of bubble is located the cotton blowing chuck subassembly of bubble and the cotton material subassembly that connects of bubble, it is cotton to be equipped with the bubble on the cotton blowing chuck subassembly of bubble, the cotton basement membrane isolating component of bubble sets up on the cotton conveying platform of bubble to the cotton basement membrane isolating component of bubble can be with the cotton basement membrane separation and the coiling of bubble.

Further, the cotton automatic feeding of bubble of cotton kludge is steeped to foretell ribbon, the cotton blowing chuck subassembly of bubble is including the cotton blowing torque motor of bubble, the cotton chuck body of bubble and chuck supporting seat, the cotton blowing torque motor of bubble and the cotton chuck body of bubble all set up on the chuck supporting seat, the cotton blowing torque motor of bubble and this body coupling of bubble cotton chuck to the cotton blowing torque motor of bubble can drive the rotation of the cotton chuck body of bubble.

Furthermore, the cotton automatic feeding of bubble of cotton kludge of ribbon bubble, the cotton depression bar backup pad of bubble is equipped with on the both sides limit of the cotton conveying platform upper end of bubble, be equipped with the cotton depression bar of bubble in the cotton depression bar backup pad of bubble, the cotton depression bar of bubble passes through the bearing setting in the cotton depression bar backup pad of bubble to the cotton depression bar of bubble is the cylindric pole, the cotton depression bar of bubble is close to the one end setting of the cotton blowing chuck subassembly of bubble, the bubble is cotton can laminate on the outer wall of the cotton depression bar of bubble.

Furthermore, the cotton automatic feeding device of bubble of cotton kludge of ribbon bubble, the both sides limit of the cotton conveying platform upper end portion of bubble is equipped with the cotton limiting plate of bubble, the bubble on the cotton conveying platform of bubble is cotton to be located between the cotton limiting plate of bubble.

Furthermore, the cotton automatic feeding of bubble of cotton kludge of ribbon bubble, the cotton conveying platform of bubble is close to the cotton one end that connects the material subassembly of bubble and is equipped with the cotton clamp plate supporting seat of bubble, be equipped with the cotton clamp plate of bubble on the cotton clamp plate supporting seat of bubble, the cotton clamp plate of bubble is located the top of the cotton conveying platform up end of bubble, the bubble is cotton can be followed and is soaked between cotton clamp plate and the cotton conveying platform up end of bubble and pass.

Further, the cotton automatic feeding of bubble of cotton kludge of ribbon bubble, the cotton basement membrane separation element of bubble is including the cotton material moment motor of receiving of bubble, the cotton basement membrane of bubble receipts material roller, pay-off servo motor, drive roller and a set of direction pinch rolls, the cotton material moment motor that receives of bubble sets up the one end that is close to the cotton blowing chuck subassembly of bubble at the cotton conveying platform of bubble to the cotton material moment motor of receiving of bubble is connected with the cotton basement membrane of bubble receipts material roller, pay-off servo motor sets up the one end that is close to the cotton material subassembly of connecing of bubble at the cotton conveying platform of bubble to pay-off servo motor is connected with the drive roller, a set of direction pinch rolls sets up the one end that is close to the cotton material subassembly of bubble at the cotton conveying platform of bubble to a set of direction pinch rolls is located the drive roller top, the cotton basement membrane one end of.

Furthermore, according to the foam automatic feeding device of the ribbon foam assembling machine, the group of guide clamping rollers are arranged in a back-and-forth turning shape.

Furthermore, the cotton automatic feeding of bubble of cotton kludge of ribbon bubble, the cotton basement membrane separation element of bubble still includes supplementary pinch roller, supplementary pinch roller sets up with the drive roller relatively, the basement membrane of bubble cotton compresses tightly between supplementary pinch roller and drive roller.

Further, the cotton automatic feeding of bubble of cotton kludge of ribbon bubble, the cotton material push pedal that connects of bubble connects the material cylinder and bubble including the bubble cotton material that connects of bubble, the bubble cotton connects the material cylinder setting on connecing the up end of material subassembly supporting seat, the bubble cotton connects the material push pedal and the cotton piston rod that connects the material cylinder of bubble to be connected, the up end that connects the material subassembly supporting seat is equipped with the cotton material slide rail that connects of bubble, the bubble cotton is equipped with the bubble cotton on connecing the material slide rail and connects the material slider, the bubble cotton connects the material push pedal to fix the setting on the cotton material slider that connects of bubble, the bubble cotton connects to be equipped with a set of cotton standing groove of bubble in the cotton standing groove of a set of bubble, the apron subassembly sets up.

Further, the cotton automatic feeding of bubble of cotton kludge of ribbon bubble, the apron subassembly includes apron cylinder and the cotton apron of bubble, the piston rod and the cotton apron of bubble of apron cylinder are connected, the bubble is cotton to be equipped with the push pedal slide rail on connecing the up end of material push pedal, the cotton apron of bubble passes through slider and push pedal slide rail sliding connection, the cotton apron of bubble can be located the cotton standing groove top of a set of bubble.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: cotton automatic feeding of bubble of ribbon bubble cotton kludge, structural design is reasonable, convenient to use can be automatically with the cotton basement membrane of bubble and the cotton separation of bubble to the automatic cotton transportation of bubble that carries on has saved loaded down with trivial details manual work and has carried out the process of bubble cotton and the separation of the cotton basement membrane of bubble, has saved the manpower, has improved work efficiency, has reduced the manufacturing cost of enterprise, can satisfy the needs of enterprise large-scale production.

Drawings

FIG. 1 is a schematic view of the overall structure of the ribbon foam assembling machine of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the ribbon foam assembling machine of the present invention;

fig. 3 is a schematic view of the overall structure of the ribbon foam assembling machine of the present invention;

fig. 4 is a first schematic structural view of the ribbon feeding assembly of the present invention;

fig. 5 is a schematic structural view of a strap feeding assembly of the present invention;

fig. 6 is a third schematic structural view of the strap feeding assembly of the present invention;

FIG. 7 is a schematic structural view of the rejected product discharge assembly of the present invention;

fig. 8 is a schematic structural view of the foam carrying assembly and the foam pressing assembly of the present invention;

fig. 9 is a schematic structural view of the foam carrying assembly of the present invention;

fig. 10 is a schematic structural view of the foam pressing assembly of the present invention;

fig. 11 is a first schematic structural diagram of the ribbon shifting module of the present invention;

fig. 12 is a second schematic structural view of the ribbon shifting module of the present invention;

fig. 13 is a third schematic structural view of the ribbon shifting module of the present invention;

fig. 14 is a fourth schematic structural view of the ribbon shifting module of the present invention;

fig. 15 is a schematic structural view of the ribbon shifting module according to the present invention;

fig. 16 is a first schematic structural diagram of the foam feeding module of the present invention;

fig. 17 is a second schematic structural view of the foam feeding module of the present invention;

fig. 18 is a first schematic structural view of the ribbon foam receiving module of the present invention;

fig. 19 is a schematic structural view of the ribbon foam receiving module of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Examples

The ribbon foam assembling machine shown in fig. 1-3 comprises a ribbon feeding assembly 1, a foam carrying assembly 2, a foam pressing assembly 3, a ribbon stirring module 4, a foam feeding module 5, a ribbon foam receiving module 6, a shield 7 and a ribbon foam assembling machine platform 8, wherein the shield 7 is covered on the ribbon foam assembling machine platform 8, the ribbon feeding assembly 1, the foam carrying assembly 2, the foam pressing assembly 3, the ribbon stirring module 4, the foam feeding module 5 and the foam receiving module 6 are arranged on the ribbon foam assembling machine platform 8, foam 20 is arranged on the foam feeding module 5, a ribbon 10 is arranged in the ribbon feeding assembly 1, the ribbon foam 20 is transferred to the ribbon feeding assembly 1 through the foam carrying assembly 2, and the foam pressing assembly 3 can press the foam 20 on the ribbon feeding assembly 10 at the process of the ribbon feeding assembly 1, the ribbon kickoff module 4 carries out the transportation of ribbon 10 on the ribbon material loading subassembly 1 to the ribbon kickoff module 4 has been transferred the product to the ribbon bubble in the cotton receipts material module 6.

The band loading assembly 1 shown in fig. 4 to 7 includes a linear feeder 101, a linear feeder mounting plate 102, a product flow path 103, a material stop cylinder 104, and a defective discharge assembly 105, the linear feeder 101 is mounted on the linear feeder mounting plate 102, and the linear feeder 101 is connected with the ribbon feeding end of the product runner 103, a plurality of ribbon products 10 are arranged in the product runner 103, the unqualified product discharge assembly 105 is arranged at the other end of the product flow channel 103 far away from the linear feeder 101, the material blocking cylinder 104 is arranged at the middle position of the product flow channel 103, and the material stop cylinder 104 is positioned between the linear feeder 101 and the defective discharge assembly 105, a foam pre-installing station 106 and a foam pressing station 107 are arranged on the product runner 103, the foam pre-loading station 106 and the foam pressing station 107 are positioned between the material blocking cylinder 104 and the unqualified product discharge assembly 105. The upper end face of the product flow channel 103 near one end of the linear feeder 101 is provided with a band feeding port 108. The unqualified product discharge assembly 105 comprises an unqualified product discharge cylinder 109, a discharge cylinder support frame 110 and a qualified product channel 111, the unqualified product discharge cylinder 109 is arranged on the discharge cylinder support frame 110, the qualified product channel 111 is arranged at the extending end of a piston rod of the unqualified product discharge cylinder 109, and the unqualified product discharge cylinder 109 extends out to enable the qualified product channel 111 to be communicated with the product flow channel 103. The upper end face of the discharging cylinder supporting frame 110 is provided with a discharging cylinder sliding rail 112, a discharging cylinder sliding block 113 is arranged on the discharging cylinder sliding rail 112, and the qualified product channel 111 is arranged on the discharging cylinder sliding block 113. The extending end of the piston rod of the material blocking cylinder 104 is connected with a ribbon blocking fork 114, and the ribbon blocking fork 114 extends into the product flow channel 103. A ribbon detection optical fiber 115 is arranged at the position, opposite to the material blocking cylinder 104, on the product runner 103. A foam detecting optical fiber 116 is arranged at the position of the foam pressing-in station 107 on the product runner 103. A band guide plate 117 is arranged on the product flow passage 103. The upper end surface of the product flow channel 103 is provided with a first opening 118 and a second opening 119 at the foam pre-loading station 106 and the foam pressing-in station 107 respectively. A strap delivery channel 120 is provided in the product flow channel 103.

The binder feeding assembly 1, the foam carrying assembly 2 and the foam pressing assembly 3 are included as shown in fig. 8-10, the foam carrying assembly 2 and the foam pressing assembly 3 are arranged along the conveying direction of the binder feeding assembly 1, and the foam carrying assembly 2 is positioned on one side of the foam pressing assembly 3 close to the feeding port of the binder feeding assembly 1; wherein, the cotton transport assembly 2 of bubble is including the cotton horizontal transport linear module 201 of bubble, a set of suction nozzle 202, the cotton linear module 203 of transport from top to bottom of bubble and the cotton transport assembly supporting seat 204 of bubble, the cotton horizontal transport linear module 201 of bubble erects on the cotton transport assembly supporting seat 204 of bubble, the cotton linear module 203 of transport from top to bottom of bubble sets up on the cotton horizontal transport linear module 201 of bubble to the cotton horizontal transport linear module 201 of bubble can drive the cotton linear module 203 of transport from top to bottom of bubble and remove to ribbon material loading subassembly 1 top, a set of suction nozzle 202 sets up on the cotton linear module 203 of transport from top to bottom of bubble, and the cotton linear module 203 of transport from top to bottom of bubble can drive a set of suction nozzle. The foam pressing-in component 3 comprises a foam pressing-in component supporting seat 205, a foam pressing head 206 and a foam pressing-in upper and lower air cylinder 207, the foam pressing-in upper and lower air cylinders 207 are arranged on the foam pressing-in component supporting seat 205, the foam pressing-in upper and lower air cylinders 207 are positioned above the tape binding feeding component 1, and the foam pressing head 206 is arranged at the piston rod extending end of the foam pressing-in upper and lower air cylinders 207. Linear module 201 of cotton horizontal handling of bubble includes linear module fixing base 208, absorbs about servo transport motor 209, the cotton transport screw rod 210 of bubble, the cotton left and right sides transport slider 211 of bubble and keysets 212, linear module fixing base 208 is fixed to be set up the upper end at cotton transport subassembly supporting seat 204 of bubble, servo transport motor 209 and the cotton transport screw rod 210 of bubble are all set up on linear module fixing base 208 about absorbing to bubble cotton transport screw rod 210 is 90 settings with ribbon material loading subassembly 1, servo transport motor 209 is connected with bubble cotton transport screw rod 210 about absorbing, transport slider 211 cover is established on bubble cotton transport screw rod 210 about the bubble cotton, keysets 212 sets up on the cotton left and right sides transport slider 211 of bubble, the cotton is impressed about the bubble, and cylinder 207 is fixed to be set up on keysets 212. Linear module fixing base 208 and ribbon material loading subassembly 1 are 90 settings to linear module fixing base 208's one end is located ribbon material loading subassembly 1 top. The linear module fixing seat 208 is provided with a foam left and right carrying slider auxiliary slide rail 213, and the foam left and right carrying slider 211 is slidably connected with the foam left and right carrying slider auxiliary slide rail 213. Be equipped with vertical removal slide rail on the keysets 212, be equipped with vertical removal slide 214 on the vertical removal slide rail, be equipped with air cock mount pad 215 on the vertical removal slide 214, a set of suction nozzle 202 sets up on air cock mount pad 215. The nozzle heads of a group of nozzles 202 are oriented vertically downward.

The ribbon stirring module 4 shown in fig. 11-15 comprises a material stirring left-right moving assembly 301, a material stirring front-back moving assembly 302, a group of material stirring clamping jaw air cylinders 303, a rotary stepping motor 304 and a discharging clamping jaw air cylinder 305, wherein the material stirring front-back moving assembly 302 is arranged on the material stirring left-right moving assembly 301, the group of material stirring clamping jaw air cylinders 303 is arranged on the material stirring front-back moving assembly 302, the rotary stepping motor 304 is arranged at the tail end of the material stirring front-back moving assembly 302 along the material stirring direction, the discharging clamping jaw air cylinder 305 is connected with a rotating shaft of the rotary stepping motor 304, and the rotary stepping motor 304 can drive the discharging clamping jaw air cylinder 305 to rotate for 90 degrees. The lower end part of the material shifting left-right moving component 301 is provided with a material shifting support seat 306. The material shifting left-right moving assembly 301 comprises a material shifting left-right servo motor 307, a material shifting left-right servo motor supporting seat 308, a material shifting screw 309 and a material shifting left-right sliding block 310, the material shifting left-right servo motor supporting seat 308 is fixedly arranged on the upper end face of the material shifting supporting seat 306, the material shifting left-right servo motor 307 is fixedly arranged on the material shifting left-right servo motor supporting seat 308, the material shifting screw 309 is erected on the material shifting left-right servo motor supporting seat 308, the material shifting screw 309 is connected with a rotating shaft of the material shifting left-right servo motor 307, and the material shifting left-right sliding block 310 is sleeved on the material shifting screw 309. The material shifting left and right servo motor supporting seat 308 is provided with material shifting guide sliding rails 311, the material shifting guide sliding rails 311 are symmetrically arranged on two sides of the material shifting screw 309 along the axial direction, and the material shifting left and right sliding blocks 310 are in sliding connection with the material shifting guide sliding rails 311. The material shifting front-and-back moving assembly 302 comprises a material shifting front-and-back air cylinder 312, a material shifting connecting plate I313 and a clamping jaw air cylinder mounting plate 314, the material shifting connecting plate I313 is fixedly arranged on the material shifting left-and-right sliding block 310, the clamping jaw air cylinder mounting plate 314 is fixedly arranged on the material shifting connecting plate I313, the clamping jaw air cylinder mounting plate 314 is connected with the extending end of a piston rod of the material shifting front-and-back air cylinder 312, and the group of material shifting clamping jaw air cylinders 303, the rotary stepping motor 304 and the discharging clamping jaw air cylinder 305 are fixedly arranged on the upper end face of the clamping. A group of front and rear guide sliding rails 315 are arranged on the first material shifting connecting plate 313, front and rear material shifting sliding blocks 316 are arranged on the front and rear guide sliding rails 315, and the clamping jaw air cylinder mounting plate 314 is arranged on the front and rear material shifting sliding blocks 316. The extension direction of the piston rod of the material-ejecting front and rear cylinders 312 is 90 degrees to the axial direction of the material-ejecting screw 309. A set of material-stirring clamping jaw air cylinders 303 are sequentially arranged along the length direction of the clamping jaw air cylinder mounting plate 314, the clamping jaws of the set of material-stirring clamping jaw air cylinders 303 and the discharging clamping jaw air cylinder 305 can be positioned on the same straight line, and the rotary stepping motor 304 is arranged at the tail end of the clamping jaw air cylinder mounting plate 314 along the conveying direction. The axis of the shaft of rotary stepper motor 304 is disposed along the length of the jaw cylinder mounting plate 314 and the shaft of rotary stepper motor 304 extends out of the jaw cylinder mounting plate 314. The number of the group of material-shifting clamping jaw air cylinders 303 is 3.

The foam feeding module 5 shown in fig. 16-17 comprises a foam discharging chuck assembly 401, a foam conveying platform 402, a foam receiving assembly 403, a cover plate assembly 404, a receiving assembly support 405 and a foam bottom film separating assembly 406, wherein the foam receiving assembly 403 is arranged on the receiving assembly support 405, the cover plate assembly 404 is arranged on the foam receiving assembly 403, the foam conveying platform 402 is arranged between the foam discharging chuck assembly 401 and the foam receiving assembly 403, foam 20 is arranged on the foam discharging chuck assembly 401, the foam bottom film separating assembly 406 is arranged on the foam conveying platform 402, and the foam bottom film separating assembly 406 can separate and wind the bottom film of the foam 20. Bubble cotton blowing chuck subassembly 401 includes bubble cotton blowing torque motor 407, bubble cotton chuck body 408 and chuck supporting seat 409, bubble cotton blowing torque motor 407 and bubble cotton chuck body 408 all set up on chuck supporting seat 409, bubble cotton blowing torque motor 407 and bubble cotton chuck body 408 are connected to bubble cotton blowing torque motor 407 can drive to bubble cotton chuck body 408 rotation. The foam conveying platform 402 is characterized in that foam compression bar supporting plates 410 are arranged on two side edges of the upper end portion of the foam conveying platform 402, foam compression bars 411 are arranged on the foam compression bar supporting plates 410, the foam compression bars 411 are arranged on the foam compression bar supporting plates 410 through bearings, the foam compression bars 411 are cylindrical bars, the foam compression bars 411 are arranged close to one end of a foam discharging chuck assembly 401, and foam 20 can be attached to the outer wall of the foam compression bars 411. The two side edges of the upper end part of the foam conveying platform 402 are provided with foam limit plates 412, and the foam 20 on the foam conveying platform 402 is positioned between the foam limit plates 412. One end of the foam conveying platform 402 close to the foam receiving assembly 403 is provided with a foam pressing plate supporting seat 413, the foam pressing plate supporting seat 413 is provided with a foam pressing plate 414, the foam pressing plate 414 is located above the upper end face of the foam conveying platform 402, and the foam 20 can pass through the foam pressing plate 414 and the upper end face of the foam conveying platform 402. The foam-cotton bottom film separating assembly 406 comprises a foam receiving torque motor 415, a foam-cotton bottom film receiving roller 416, a feeding servo motor 417, a driving roller 418 and a group of guide clamping rollers 419, wherein the foam receiving torque motor 415 is arranged at one end of a foam conveying platform 402 close to the foam discharging chuck assembly 401, the foam receiving torque motor 415 is connected with the foam-cotton bottom film receiving roller 416, the feeding servo motor 417 is arranged at one end of the foam conveying platform 402 close to the foam receiving assembly 403, the feeding servo motor 417 is connected with the driving roller 418, the group of guide clamping rollers 419 is arranged at one end of the foam conveying platform 402 close to the foam receiving assembly 403, the group of guide clamping rollers 419 is positioned above the driving roller 418, and one end of the bottom film of the foam 20 is wound on the foam receiving roller 416 through the group of guide clamping rollers 419 and the driving roller 418. The guide pinch rollers 419 are arranged to reciprocate back and forth. The foam bottom film separation assembly 406 further comprises an auxiliary pressure roller 420, the auxiliary pressure roller 420 is arranged opposite to the driving roller 418, and the bottom film of the foam 20 is pressed between the auxiliary pressure roller 420 and the driving roller 418. The cotton material push pedal 422 that connects of bubble subassembly 403 includes that the bubble is cotton to connect material cylinder 421 and bubble to connect, the bubble is cotton to connect material cylinder 421 to set up on connecing the up end of material subassembly supporting seat 405, the bubble is cotton to connect material push pedal 422 to connect the piston rod that the material cylinder 421 was connected with the bubble, the up end that connects material subassembly supporting seat 405 is equipped with the bubble cotton and connects material slide rail 424, the bubble is cotton to connect to be equipped with the bubble on the material slide rail 424 and connects material slider 425, the bubble is cotton to connect material push pedal 422 to fix the setting on the bubble connects material slider 425, the bubble is cotton to connect to be equipped with a set of cotton standing groove 426 of bubble on the material push pedal 422, a set of cotton standing groove 426 of bubble can be arranged in to. The cover plate assembly 404 comprises a cover plate cylinder 427 and a foam cover plate 428, a piston rod of the cover plate cylinder 427 is connected with the foam cover plate 428, a push plate slide rail 429 is arranged on the upper end surface of the foam receiving push plate 422, the foam cover plate 428 is connected with the push plate slide rail 429 in a sliding manner through a slide block, and the foam cover plate 428 can be positioned above a group of foam placing grooves 426.

The ribbon-foam collecting module 6 shown in fig. 18-19 comprises a ribbon-foam assembling machine platform 8, a unqualified product blanking storage box 501, a qualified product storage bag lifting assembly 502, a qualified product storage bag 503 and a qualified product blanking storage box 504, wherein the unqualified product blanking storage box 501 and the qualified product storage bag lifting assembly 502 are both arranged inside the ribbon-foam assembling machine platform 8, the qualified product blanking storage box 504 is arranged on the upper table surface of the ribbon-foam assembling machine platform 8, the lower end part of the qualified product blanking storage box 504 can pass through the table surface of the ribbon-foam assembling machine platform 8 and is arranged in the ribbon-foam assembling machine platform 8, the lower end part of the qualified product blanking storage box 504 is arranged right above the qualified product storage bag 503, the qualified product storage bag 503 is arranged on the qualified product storage bag lifting assembly 502, and the ribbon-foam assembling machine platform 8 is provided with an unqualified product hole 505, the unqualified product blanking storage box 501 is located right below the unqualified product discharge hole 505. Qualified product storage bag lifting unit 502 includes lift step motor 506, lift transmission module 507, qualified product storage bag braced frame 508 and lift supporting seat 509, lift supporting seat 509 passes through the bolt fastening on the bottom plate of ribbon bubble cotton kludge board 8, lift step motor 506 is fixed to be set up on lift supporting seat 509, lift transmission module 507 sets up on lift supporting seat 509 to lift transmission module 507 is connected with lift step motor 506, qualified product storage bag braced frame 508 sets up on lift transmission module 507, qualified product storage bag 503 sets up on qualified product storage bag braced frame 508. The lifting transmission module 507 comprises a lifting driving wheel 510, a lifting driven wheel 511, a lifting synchronous belt pulley 512 and a lifting sliding block 513, wherein the lifting driving wheel 510 and the lifting driven wheel 511 are arranged on a lifting supporting seat 509 through a bearing and a rotating shaft, the lifting synchronous belt pulley 512 is sleeved on the lifting driving wheel 510 and the lifting driven wheel 511, the rotating shaft of the lifting stepping motor 506 is connected with the lifting driving wheel 510, the lifting sliding block 513 is fixedly arranged on the lifting synchronous belt pulley 512, and the qualified product storage bag supporting frame 508 is connected with the lifting sliding block 513. A set of lifting guide sliding rails 514 is arranged on the lifting support seat 509, the lifting guide sliding rails 514 are positioned on two sides of the lifting synchronous belt pulley 512, the lifting guide sliding rails 514 are arranged along the vertical direction, and the lifting sliding block 513 is slidably connected with the lifting guide sliding rails 514. The qualified product storage bag supporting frame 508 includes a lower lifting receiving plate 515 and an upper fixing supporting plate 516, the upper fixing supporting plate 516 is fixedly disposed at the upper end portion of the lifting supporting seat 509, and the opening of the upper end of the qualified product storage bag 503 is clamped on the upper fixing supporting plate 516, the lower lifting receiving plate 515 is fixedly disposed on the lifting slider 513, and the lower end portion of the qualified product storage bag 503 is disposed on the lower lifting receiving plate 515. The cross-section of the lower lifting bearing plate 515 is L-shaped. The lower tip of certified products blanking storage box 504 is equipped with receipts material hang plate 517 and receipts material apron 518, receive the material hang plate 517 to set up the lower tip at certified products blanking storage box 504, receive the opening part at certified products blanking storage box 504 lower tip of material apron 518 cover, receive material hang plate 517 and receive material apron 518 and form the structure that the cross-section is the V type, receive the material apron 518 and be located the discharging port department of certified products blanking storage box 504 and be located the open directly over in certified products storage bag 503 upper end. Be equipped with blanking storage box switching cylinder 519 on the lower terminal surface of ribbon bubble kludge board 8 mesa, blanking storage box switching cylinder 519's piston rod is connected with receipts material apron 518, receipts material apron 518 accessible blanking storage box switching cylinder 519 opens or closes certified products blanking storage box 504. A first through hole 521 is formed in the table 8 of the ribbon foam assembling machine, and the qualified product blanking storage box 504 is provided with a material receiving inclined plate 517 and a material receiving cover plate 518, wherein the lower end part of the material receiving inclined plate and the material receiving cover plate 518 penetrates through the first through hole 521 and is located below the table top of the table 8 of the ribbon foam assembling machine. An unqualified product guide plate 520 is arranged on the lower end face of the table top of the ribbon foam assembling machine table 8, the unqualified product guide plate 520 is obliquely arranged, and the lower end part of the unqualified product guide plate 520 is positioned right above the unqualified product blanking storage box 501.

The utility model discloses a theory of operation of ribbon bubble cotton kludge of high-efficient automation operation does: 1) binding and loading: manually putting the binding tapes 10 into the binding tape feeding port 108 one by one, and vibrating the linear feeder 101 to drive the binding tapes 10 in the product flow channel 103 to move to the next process; 2) foam feeding: the feeding servo motor 417 drives the driving roller 418 to rotate, the bottom film of the foam 20 is separated from the foam 20, the foam receiving torque motor 415 is started, the bottom film of the foam 20 is wound on the foam bottom film receiving roller 416, the foam receiving cylinder 421 extends out to push the foam receiving push plate 422 to be close to the foam conveying platform 402, the foam enters a group of foam placing grooves 426, the cover plate cylinder 427 extends out to cover the foam cover plate 428 above the group of foam placing grooves 426, and foam transfer is completed; 3) carrying foam: the foam horizontal conveying linear module 201 moves to a position above the group of foam placing grooves 426, the foam up-down conveying linear module 203 descends, the group of suction nozzles 202 adsorbs the foam 20, the foam up-down conveying linear module 203 ascends, the foam horizontal conveying linear module 201 starts, and the foam 20 is conveyed to one end of the product flow channel 103; 4) the ribbon keeps off the material: when the foam 20 is installed at the foam preassembling station 106, the ribbon detection optical fiber 115 detects that the ribbon 10 is arranged at the material blocking cylinder 104, the material blocking cylinder 104 extends out, and the ribbon blocking fork 114 extends into the product flow channel 103 to prevent the ribbon 10 from continuously moving to the foam preassembling station 106; 5) pre-assembling foam: the group of suction nozzles 202 transports the foam 20 to the foam pre-loading station 106, at which point a tie 10 has been placed in the foam pre-loading station 106 via the product flow channel 103 and the linear feeder 101, and one of the group of suction nozzles 202 places the foam 20 on the tie 10 in the foam pre-loading station 106; 6) ribbon stirring: the ribbon 10 with the foam 20 preassembled at the foam pre-installation station 106 is clamped by the material shifting clamping jaw cylinder 303, the material shifting left-right moving assembly 301 is started, and the ribbon 10 with the foam 20 preassembled at the foam pre-installation station 106 is moved to the foam pressing-in station 107 through the material shifting clamping jaw cylinder 303; 7) and (3) foam detection: the foam detection optical fiber 116 detects whether the ribbon 10 at the foam pressing-in station 107 has foam 20; pressing foam 20 into the container; 8) pressing foam: the foam pressing upper cylinder 207 and the foam pressing lower cylinder 207 are started and extend downwards to enable the foam pressing head 206 to tightly press the foam 20 on the head of the narrow strip 10; 9) The ribbon is pulled again: the ribbon 10 at the foam pressing station 107 is clamped by the material shifting clamping jaw cylinder 303, the material shifting left-right moving assembly 301 is started, the ribbon 10 at the foam pressing station 107 is moved to the unqualified product discharging assembly 105 through the material shifting clamping jaw cylinder 303, when the foam detecting optical fiber 116 detects that the foam 10 is on the ribbon 10, the unqualified product discharging cylinder 109 extends out, so that the qualified product channel 111 is communicated with the product channel 103, the material shifting clamping jaw cylinder 303 shifts the ribbon 10 into the qualified product channel 111, when the foam detecting optical fiber 116 detects that no foam 20 is on the ribbon 10, the unqualified product discharging cylinder 109 is retracted, so that the qualified product channel 111 and the product channel 103 are staggered, the unqualified product discharging hole 505 is exposed, and the unqualified product falls into the unqualified product blanking storage box 501 through the unqualified product discharging hole 505; 10) for qualified products, the rotary stepping motor 304 drives the discharging clamping jaw air cylinder 305 to be in a horizontal position, the discharging clamping jaw air cylinder 305 clamps the qualified ribbon 10, and the rotary stepping motor 304 drives the discharging clamping jaw air cylinder 305 to rotate for 9 degrees, so that the ribbon 10 is horizontally placed; 11) blowing clamping jaw cylinder 305 releases, and qualified narrowband falls into certified products blanking storage box 504, and when the ribbon 10 quantity in certified products blanking storage box 504 reached a certain amount, blanking storage box switching cylinder 519 started, will receive material apron 518 and open, and qualified ribbon 10 falls into certified products storage bag 503.

In the qualified product receiving process, the qualified product storage bag 503 moves up and down the lifting bearing plate 515 through the lifting transmission module 507, so that the qualified product storage bag 503 is in a contraction state, when the number of the ribbons in the qualified product storage bag 503 reaches the upper end port, the lifting transmission module 507 is started, so that the lower lifting bearing plate 515 moves down, the qualified product storage bag 503 is driven downwards, and the opening at the upper end of the qualified product storage bag 503 is fixed on the upper fixing support plate 516, so that the qualified product storage bag 503 is unfolded, and the qualified ribbon 10 can be continuously stored in the qualified product storage bag 503.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a cotton automatic feeding of bubble of cotton kludge of ribbon bubble which characterized in that: including bubble cotton blowing chuck subassembly (401), bubble cotton conveying platform (402), bubble cotton connect material subassembly (403), apron subassembly (404), connect material subassembly supporting seat (405) and bubble cotton basement membrane separable set (406), the bubble cotton connects material subassembly (403) to set up on connecing material subassembly supporting seat (405), apron subassembly (404) set up and connect on material subassembly (403) at the bubble cotton, bubble cotton conveying platform (402) are located bubble cotton blowing chuck subassembly (401) and bubble cotton connect between material subassembly (403), be equipped with bubble cotton (20) on bubble cotton blowing chuck subassembly (401), bubble cotton basement membrane separable set (406) sets up on bubble cotton conveying platform (402) to bubble cotton basement membrane separable set (406) can be with the basement membrane separation and the coiling of bubble cotton (20).

2. Foam automatic feeding device of a ribbon foam assembling machine according to claim 1, characterized in that: bubble cotton blowing chuck subassembly (401) is including bubble cotton blowing torque motor (407), bubble cotton chuck body (408) and chuck supporting seat (409), bubble cotton blowing torque motor (407) and bubble cotton chuck body (408) all set up on chuck supporting seat (409), bubble cotton blowing torque motor (407) and bubble cotton chuck body (408) are connected to bubble cotton blowing torque motor (407) can drive bubble cotton chuck body (408) and rotate.

3. Foam automatic feeding device of a ribbon foam assembling machine according to claim 2, characterized in that: the foam feeding device is characterized in that foam compression bar supporting plates (410) are arranged on two side edges of the upper end portion of the foam conveying platform (402), foam compression bars (411) are arranged on the foam compression bar supporting plates (410), the foam compression bars (411) are arranged on the foam compression bar supporting plates (410) through bearings, the foam compression bars (411) are cylindrical bars, the foam compression bars (411) are arranged at one ends, close to the foam feeding chuck assembly (401), of the foam feeding chuck assembly, and foam (20) can be attached to the outer wall of the foam compression bars (411).

4. Foam automatic feeding device of a ribbon foam assembling machine according to claim 1, characterized in that: foam limiting plates (412) are arranged on two side edges of the upper end portion of the foam conveying platform (402), and foam (20) on the foam conveying platform (402) is located between the foam limiting plates (412).

5. Foam automatic feeding device of ribbon foam assembling machine according to claim 4, characterized in that: the one end that bubble cotton conveying platform (402) is close to bubble cotton and connects material subassembly (403) is equipped with bubble cotton clamp plate supporting seat (413), be equipped with bubble cotton clamp plate (414) on bubble cotton clamp plate supporting seat (413), bubble cotton clamp plate (414) are located the top of bubble cotton conveying platform (402) up end, bubble cotton (20) can be followed and passed between bubble cotton clamp plate (414) and the bubble cotton conveying platform (402) up end.

6. Foam automatic feeding device of a ribbon foam assembling machine according to claim 1, characterized in that: the foam bottom film separating assembly (406) comprises a foam receiving torque motor (415), a foam bottom film receiving roller (416), a feeding servo motor (417), a driving roller (418) and a group of guide clamping rollers (419), wherein the foam receiving torque motor (415) is arranged at one end, close to the foam discharging chuck assembly (401), of a foam conveying platform (402), the foam receiving torque motor (415) is connected with the foam bottom film receiving roller (416), the feeding servo motor (417) is arranged at one end, close to the foam receiving assembly (403), of the foam conveying platform (402), the feeding servo motor (417) is connected with the driving roller (418), the group of guide clamping rollers (419) is arranged at one end, close to the foam receiving assembly (403), of the foam conveying platform (402), the group of guide clamping rollers (419) is located above the driving roller (418), one end of the bottom film of the foam (20) is wound around the driving roller (418) through the group of guide clamping rollers (419) and the driving roller (418) On a foam bottom film receiving roller (416).

7. Foam automatic feeding device of ribbon foam assembling machine according to claim 6, characterized in that: the group of guide pinch rollers (419) are arranged in a reciprocating and returning shape.

8. Foam automatic feeding device of a ribbon foam assembling machine according to claim 1, characterized in that: the foam bottom film separation assembly (406) further comprises an auxiliary pressing roller (420), the auxiliary pressing roller (420) is arranged opposite to the driving roller (418), and the bottom film of the foam (20) is pressed between the auxiliary pressing roller (420) and the driving roller (418).

9. Foam automatic feeding device of a ribbon foam assembling machine according to claim 8, characterized in that: the cotton material push pedal (422) that connects of bubble connects material cylinder (421) and bubble cotton of bubble is drawn together to bubble cotton material subassembly (403), the bubble cotton connects material cylinder (421) to set up on the up end that connects material subassembly supporting seat (405), the bubble cotton connects material push pedal (422) and the cotton piston rod that connects material cylinder (421) of bubble to be connected, the up end that connects material subassembly supporting seat (405) is equipped with the bubble cotton and connects material slide rail (424), the bubble cotton connects to be equipped with on material slide rail (424) the bubble cotton and connects material slider (425), the bubble cotton connects material push pedal (422) to fix to set up on the bubble cotton connects material slider (425), the bubble cotton connects to be equipped with a set of cotton standing groove (426) of bubble on material push pedal (422), a set of cotton standing groove (426) can be arranged in to bubble cotton (20), apron subassembly (404) sets up on the cotton push pedal (422.

10. Foam automatic feeding device of a ribbon foam assembling machine according to claim 9, characterized in that: the cover plate assembly (404) comprises a cover plate cylinder (427) and a foam cover plate (428), a piston rod of the cover plate cylinder (427) is connected with the foam cover plate (428), a push plate slide rail (429) is arranged on the upper end face of the foam receiving push plate (422), the foam cover plate (428) is connected with the push plate slide rail (429) in a sliding mode through a slide block, and the foam cover plate (428) can be located above a group of foam placing grooves (426).

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