CN203767686U - Automatic feeding and receiving mechanism of automatic film laminating machine - Google Patents

Automatic feeding and receiving mechanism of automatic film laminating machine Download PDF

Info

Publication number
CN203767686U
CN203767686U CN201420117045.2U CN201420117045U CN203767686U CN 203767686 U CN203767686 U CN 203767686U CN 201420117045 U CN201420117045 U CN 201420117045U CN 203767686 U CN203767686 U CN 203767686U
Authority
CN
China
Prior art keywords
conveying
chain
receiving
motor
binder
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201420117045.2U
Other languages
Chinese (zh)
Inventor
罗后帅
Original Assignee
罗后帅
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 罗后帅 filed Critical 罗后帅
Priority to CN201420117045.2U priority Critical patent/CN203767686U/en
Application granted granted Critical
Publication of CN203767686U publication Critical patent/CN203767686U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

Disclosed is an automatic feeding and receiving mechanism of an automatic film laminating machine. A conveying motor is installed on a feeding rack, a conveying drive shaft and a conveying driven shaft are rotatably installed on the feeding rack, a conveying belt is installed between the conveying drive shaft and the conveying driven shaft, one drive belt is installed between the conveying motor and the conveying drive shaft, the other drive belt is installed between the conveying drive shaft and the conveying driven shaft, a chain motor and a drive gear are both installed on the feeding rack, the drive belt is installed between the chain motor and the drive gear, upper ends of two chains are installed at two ends of a chain drive shaft respectively, lower ends of the two chains are installed on two chain driven gears respectively, two receiving table installation plates are fixed on the two chains respectively, and a receiving table is installed on the two receiving table installation plates. According to the automatic feeding and receiving mechanism of the automatic film laminating machine, an automation degree and efficiency are high, labor intensities of workers are greatly reduced, a rejection rate is low, and product qualities are good.

Description

A kind of automatic charging receiving mechanism of automatically mounting film machine
Technical field
The utility model relates to the machine that a kind of card manufacturing industry uses.
Background technology
In card manufacturing industry, degree of automation is low, and spot welding, upper film location are all adjusted by staff, very inaccurate, and efficiency is low, and labor strength is very large, and product rejection rate is high, unstable product quality.
Utility model content
The technical problems to be solved in the utility model is: a kind of automatic charging receiving mechanism of automatically mounting film machine is provided, and degree of automation is high, and efficiency is high, and labor strength reduces greatly, and condemnation factor is low, good product quality.
In order to solve the problems of the technologies described above, the utility model proposes following technical scheme: a kind of automatic charging receiving mechanism of automatically mounting film machine, it comprises that a feed frame, carries motor, a conveying main spindle, one to carry driven shaft, a load-transfer device, two driving bands, a chain motor, a transmission gear, a drive belt, a chain transmission axle, two chains, two chain driven gears, two material receiving desk adapter plates, a material receiving desk;
This conveying motor is arranged on this feed frame;
This conveying main spindle, conveying driven shaft are rotatably installed on this feed frame, and this conveying main spindle, conveying driven shaft arrange abreast;
This load-transfer device is arranged on this conveying main spindle and carries between driven shaft;
Wherein a driving band is arranged between this conveying motor and conveying main spindle, and another driving band is arranged on this conveying main spindle and carries between driven shaft;
This chain motor, transmission gear are all arranged on this feed frame;
This drive belt is arranged between this chain motor and this transmission gear;
This chain transmission axle is rotatably installed on this feed frame;
This transmission gear and the engagement of this chain transmission axle;
The upper end of these two chains is arranged on respectively the two ends of this chain transmission axle, and lower end is arranged on respectively on these two chain driven gears;
These two material receiving desk adapter plates are separately fixed on these two chains;
This material receiving desk is arranged on these two material receiving desk adapter plates.
Compared with prior art, the utlity model has following beneficial effect: the utility model is mounted the automatic charging receiving mechanism of film machine automatically, and degree of automation is high, and efficiency is high, and labor strength reduces greatly, and condemnation factor is low, good product quality.
Brief description of the drawings
Fig. 1 is the block diagram that the utility model is mounted film machine automatically.
Fig. 2 is the three-dimensional combination figure of movable arm material loading dedusting mechanism of the present utility model.
Fig. 3 is the three-dimensional exploded view of movable arm material loading dedusting mechanism of the present utility model.
Fig. 4 is the three-dimensional combination figure of front binder spot hot press machine structure of the present utility model.
Fig. 5 is the three-dimensional exploded view of rear binder spot hot press machine structure of the present utility model.
Fig. 6 is the three-dimensional combination figure of automatic charging receiving mechanism of the present utility model.
Detailed description of the invention
Refer to Fig. 1 to Fig. 6, one is mounted film machine automatically, and it comprises a frame 1, a movable arm material loading dedusting mechanism 2, the ultrasonic spot hot press machine structure 3 of a front and back binder, an automatic charging receiving mechanism 4.
This frame 1 is put on the ground.
This movable arm material loading dedusting mechanism 2 is arranged in this frame 1 by rear end.
The ultrasonic spot hot press machine structure 3 of this front and back binder is arranged in this frame 2 by middle part.
This automatic charging receiving mechanism 4 is arranged on the front portion of this frame 1.
This movable arm material loading dedusting mechanism 2 comprises a left support wall 21, a right support wall 22, a material loading assembly 23, a dedusting assembly 26.
This material loading assembly 23 comprises a charging main shaft 231, a left movable arm 232, a right movable arm 233, a charging driven shaft 234, some load-transfer devices 235, a pressure wheel pivot shaft 236, two pressure wheel mount pads 237, two pressure wheels 238, two screw mandrel control apparatuss 239.
This charging main shaft 231 is rotatably installed between this left support wall 21 and this right support wall 22.
This left movable arm 232, right movable arm 233 are all arranged on this charging main shaft 231, and this charging main shaft 231 is located on this left movable arm 232, right movable arm 233 and can rotates therein.
This charging driven shaft 234 is rotatably installed between this left movable arm 232 and right movable arm 233.
These some load-transfer devices 235 are arranged between this charging main shaft 231 and charging driven shaft 234.
Rotation after this charging main shaft 231 is driven by other actuating unit (not shown), then drives these some load-transfer devices 235 to rotate.
This pressure wheel pivot shaft 236 is arranged between this left support wall 21 and right support wall 22.
These two pressure wheel mount pads 237 are arranged on this pressure wheel pivot shaft 236.
These two pressure wheels 238 are rotatably installed on these two pressure wheel mount pads 237.
This each screw mandrel control apparatus 239 comprises a upper shell fragment 2391, screw rodb base 2392, screw mandrel 2393, spring 2394, a five-pointed star handle 2395.
On this, shell fragment 2391 is arranged on this pressure wheel pivot shaft 236.
This screw rodb base 2392 is arranged on this pressure wheel mount pad 237 near pressure wheel 238 one end.
This screw mandrel 2393 is arranged on this screw rodb base 2392.
This spring 2394 is set on this screw mandrel 2393, is arranged on this screw rodb base 2392 and on this between shell fragment 2391.
This five-pointed star handle 2395 is arranged on this screw mandrel 2393, and this five-pointed star handle 2395 is pressed on this on shell fragment 2391.
By rotating this five-pointed star handle 2395, i.e. the elastic force of adjustable this spring 2394 to this screw rodb base 2392, thus regulate the size of the pressure of these two pressure wheels 238 to this load-transfer device 235.
This dedusting assembly 26 comprise two regulate mount pads 261, lower roller 262, dustproof roller bearing 263, two wiper blade holder 264, two dust-collecting boxes 265, two scrape bar 266, two dust blowing sheets 267.
These two regulate mount pad 261 to be arranged on respectively on this left support wall 21 and right support wall 22.
This each regulate mount pad 261 to comprise two slides 2611, slide block 2612, adjusting screw mandrel 2613, screw rodb base 2614, a handwheel 2615.
These two slides 2611 are arranged on this left support wall 21 or right support wall 22.
This slide block 2612 is arranged in these two slides 2611, and can slide up and down betwixt.
On this slide block 2612, offer a screw mandrel mounting hole 26122 and a roller bearing mounting hole 26124.
This adjusting screw mandrel 2613 is arranged in this screw mandrel mounting hole 26122.
This screw rodb base 2614 is arranged on the top of these two slides 2611.
This handwheel 2615 is arranged on the top of this adjusting screw mandrel 2613.
This lower roller 262 is rotatably installed between this left support wall 21 and right support wall 22.
This dustproof roller bearing 263 is rotatably installed in these two and regulates between mount pad 261.
Insert respectively in the roller bearing mounting hole 26124 of this slide block 2612 at the two ends of this dustproof roller bearing 263, and be connected with this adjusting screw mandrel 2613.
One of them wiper blade holder 264 is arranged on the side of this dustproof roller bearing 263, and another wiper blade holder 264 is arranged on the side of this lower roller 262.
These two dust-collecting boxes 265 be arranged on respectively these two wiper blade holder 264 above.
Scrape bar 266 for these two and connect respectively this two dust-collecting boxes 265.
These two dust blowing sheets 267 are arranged on respectively these two and scrape on bar 266, and these two dust blowing sheets 267 contact respectively this dustproof roller bearing 263 and this lower roller 262.
When this dustproof roller bearing 263 and this lower roller 262 are rotated, these two dust blowing sheets 267 scrape off the dust in this dustproof roller bearing 263 and this lower roller 262 respectively, then put into dust-collecting box 265.
The ultrasonic spot hot press machine structure 3 of this front and back binder comprises binder spot hot press machine structure 35 after a front binder spot hot press machine structure 32.
This front binder spot hot press machine structure 32 comprises that the front binder spot welding bearing of two front binder axis of guides 321,323, two front binder points perm 325, put hot pressure flitch 333 before the front binder Acetabula device of the front binder cylinder of two front binder cliding seats 327, two 329, two 331, two.
These the two front binder axis of guides 321 arrange abreast, wherein one be positioned at another root under.
This front binder spot welding bearing 323 comprises two adapter plates 3231, a plate 3233, a bit boiling hot cylinder 3234, a bit boiling hot bearing 3235.
These the two front binder axis of guides 321 are located on these two adapter plates 3231, and therefore these two adapter plates 3231 are arranged on these the two front binder axis of guides 321.
This connecting panel 3233 is arranged on the bottom of these two adapter plates 3231.
The boiling hot cylinder 3234 of this point is arranged on the bottom of this connecting panel 3233.
The boiling hot bearing 3235 of this point is arranged on the bottom of the boiling hot cylinder 3234 of this point.
These two front binder points 325 two ends that are arranged on respectively this point and scald bearing 3235 of perming.
These two front binder cliding seats 327 are arranged on these the two front binder axis of guides 321, are positioned at the left and right sides of this front binder spot welding bearing 323.
This each front binder cliding seat 327 comprises a cliding seat adapter plate 3271, a cliding seat connecting panel 3272.
This cliding seat adapter plate 3271 is arranged on these the two front binder axis of guides 321.
This cliding seat connecting panel 3272 is arranged on the bottom of this cliding seat adapter plate 3271.
These two front binder cylinders 329 are arranged on respectively on these two cliding seat connecting panels 3272.
These two front binder Acetabula devices 331 are arranged on respectively on these two front binder cylinders 329.
Before this each, binder Acetabula device 331 comprises a suction nozzle seat 3311, sucker connecting rod 3312, sucker 3313, a spring 3314.
This suction nozzle seat 3311 is connected on this front binder cylinder 329.Start after this front binder cylinder 329, this front binder cylinder 329 promotes these suction nozzle seat 3311 up-and-down movements.
This sucker connecting rod 3312 is located on this suction nozzle seat 3311, and up-and-down movement therein.
This sucker 3313 is arranged on the bottom of this sucker connecting rod 3312.
This spring 3314 is set on this sucker connecting rod 3312, and its one end withstands on this sucker 3313, and the other end withstands on the lower surface of this suction nozzle seat 3311.
Before these two, put hot pressure flitch 333 and be arranged on the lower end of these two cliding seat connecting panels 3272.
After binder spot welding bearing 353 after the binder axis of guide 351 after this rear binder spot hot press machine structure 35 comprises two,, two, binder point is permed 355, is put hot pressure flitch 363 after binder Acetabula device 361 after binder cylinder 359 after binder cliding seat 357 after two, two, two, two.
After these two, the binder axis of guide 351 is positioned at same height, and the binder axis of guide 351 be arranged in parallel after these two.
This rear binder spot welding bearing 353 comprises two adapter plates 3531, a plate 3533, a bit boiling hot cylinder 3534, a bit boiling hot bearing 3535.
After these two adapter plates 3531 are arranged on these two on the binder axis of guide 351.
This connecting panel 3533 is arranged on the bottom of these two adapter plates 3531.
The boiling hot cylinder 3534 of this point is arranged on the bottom of this connecting panel 3533.
The boiling hot bearing 3535 of this point is arranged on the bottom of the boiling hot cylinder 3534 of this point.
After these two, binder point is permed and 355 is arranged on respectively this point and scalds the two ends of bearing 3535.
After binder cliding seat 357 is arranged on these two after these two, on the binder axis of guide 351, be positioned at the left and right sides of this rear binder spot welding bearing 353.
This each rear binder cliding seat 357 comprises a cliding seat adapter plate 3571, a cliding seat connecting panel 3572.
After this cliding seat adapter plate 3571 is arranged on these two on the binder axis of guide 351.
This cliding seat connecting panel 3572 is arranged on the bottom of this cliding seat adapter plate 3571.
After these two, binder cylinder 359 is arranged on respectively on these two cliding seat connecting panels 3572.
After after these two, binder Acetabula device 361 is connected to these two on binder cylinder 359.
After this each, binder Acetabula device 361 comprises a suction nozzle seat 3611, sucker connecting rod 3612, sucker 3613, a spring 3614.
This suction nozzle seat 3611 is connected on this rear binder cylinder 359.
Start after this rear binder cylinder 359, this rear binder cylinder 359 promotes these suction nozzle seat 3611 up-and-down movements.
This sucker connecting rod 3612 passes this suction nozzle seat 3611, and can up-and-down movement.
This sucker 3613 is arranged on the bottom of this sucker connecting rod 3612.
This spring 3614 is set on this sucker connecting rod 3612, and its one end withstands on this sucker 3613, and the other end withstands on the lower surface of this suction nozzle seat 3611.
Put hot pressure flitch 363 afterwards and be arranged on the lower end of these two cliding seat connecting panels 3572 for these two.
This automatic charging receiving mechanism 4 comprises that a feed frame 401, carries motor 403, a conveying main spindle 405, to carry driven shaft 407, a load-transfer device 409, two driving bands 411, a chain motor 413, a transmission gear 415, a drive belt 417, a chain transmission axle 419, two chains 421, two chain driven gears 423, two material receiving desk adapter plates 425, a material receiving desk 427.
This conveying motor 403 is arranged on this feed frame 401.
This conveying main spindle 405, conveying driven shaft 407 are rotatably installed on this feed frame 401.
This conveying main spindle 405, conveying driven shaft 407 arrange abreast.
This load-transfer device 409 is arranged on this conveying main spindle 405 and carries between driven shaft 407.
Wherein a driving band 411 is arranged between this conveying motor 403 and conveying main spindle 405.Another driving band 411 is arranged on this conveying main spindle 405 and carries between driven shaft 407.
After starting this conveying motor 403, this conveying motor 403 drives this conveying main spindle 405 to rotate, and then drives this conveying driven shaft 407 to rotate.
This chain motor 413, transmission gear 415 are all arranged on this feed frame 401.
This drive belt 417 is arranged between this chain motor 413 and this transmission gear 415.
This chain transmission axle 419 is rotatably installed on this feed frame 401.
This transmission gear 415 and this chain transmission axle 419 engage.
The upper end of these two chains 421 is arranged on respectively the two ends of this chain transmission axle 419, and lower end is arranged on respectively on these two chain driven gears 423.
These two material receiving desk adapter plates 423 are separately fixed on these two chains 421.
This material receiving desk 425 is arranged on these two material receiving desk adapter plates 423.
Start after this chain motor 413, this chain motor 413 drives this transmission gear 415 to rotate, and then drives this chain transmission axle 419 to rotate, and then drives these two chains 421 to rotate, this two material receiving desk adapter plates 423 and this material receiving desk 425 up-and-down movement thereupon.
The utlity model has following beneficial effect: the utility model is mounted film machine automatically, and degree of automation is high, spot welding, upper film location are accurate, and efficiency is high, and labor strength reduces greatly, and condemnation factor is low, good product quality.

Claims (1)

1. automatically mount the automatic charging receiving mechanism of film machine for one kind, it is characterized in that, it comprises that a feed frame, carries motor, a conveying main spindle, one to carry driven shaft, a load-transfer device, two driving bands, a chain motor, a transmission gear, a drive belt, a chain transmission axle, two chains, two chain driven gears, two material receiving desk adapter plates, a material receiving desk;
This conveying motor is arranged on this feed frame;
This conveying main spindle, conveying driven shaft are rotatably installed on this feed frame, and this conveying main spindle, conveying driven shaft arrange abreast;
This load-transfer device is arranged on this conveying main spindle and carries between driven shaft;
Wherein a driving band is arranged between this conveying motor and conveying main spindle, and another driving band is arranged on this conveying main spindle and carries between driven shaft;
This chain motor, transmission gear are all arranged on this feed frame;
This drive belt is arranged between this chain motor and this transmission gear;
This chain transmission axle is rotatably installed on this feed frame;
This transmission gear and the engagement of this chain transmission axle;
The upper end of these two chains is arranged on respectively the two ends of this chain transmission axle, and lower end is arranged on respectively on these two chain driven gears;
These two material receiving desk adapter plates are separately fixed on these two chains;
This material receiving desk is arranged on these two material receiving desk adapter plates.
CN201420117045.2U 2014-03-14 2014-03-14 Automatic feeding and receiving mechanism of automatic film laminating machine Active CN203767686U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420117045.2U CN203767686U (en) 2014-03-14 2014-03-14 Automatic feeding and receiving mechanism of automatic film laminating machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420117045.2U CN203767686U (en) 2014-03-14 2014-03-14 Automatic feeding and receiving mechanism of automatic film laminating machine

Publications (1)

Publication Number Publication Date
CN203767686U true CN203767686U (en) 2014-08-13

Family

ID=51284902

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420117045.2U Active CN203767686U (en) 2014-03-14 2014-03-14 Automatic feeding and receiving mechanism of automatic film laminating machine

Country Status (1)

Country Link
CN (1) CN203767686U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103863856A (en) * 2014-03-14 2014-06-18 罗后帅 Automatic material feeding and material collecting mechanism for automatic film laminating machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103863856A (en) * 2014-03-14 2014-06-18 罗后帅 Automatic material feeding and material collecting mechanism for automatic film laminating machine

Similar Documents

Publication Publication Date Title
CN205394762U (en) Log rotary -cut device
CN102310152A (en) Automatic stamping equipment production line for metal tanks
CN104325532A (en) Automatic binding production line for door plates
CN203767686U (en) Automatic feeding and receiving mechanism of automatic film laminating machine
CN204277726U (en) A kind of vertical double automatic polishing machine
CN109217070A (en) Cam-type pin machine
CN203766380U (en) Automatic film laminating machine
CN203767687U (en) Movable-arm material loading/dust removing mechanism of automatic film laminating machine
CN203766379U (en) Front and rear material pressing ultrasonic spot ironing mechanism of automatic film laminating machine
CN103863856A (en) Automatic material feeding and material collecting mechanism for automatic film laminating machine
CN208529844U (en) A kind of carton corner pasting machine
CN106736342B (en) The shaft and spiral fan blades wheel automatic assembling device of electronically controlled motor
CN207916369U (en) Sharpening cuts light all-in-one machine
CN103935181A (en) Automatic film laminating machine
CN108750761A (en) A kind of filter paper feeding material component
CN107717761A (en) Full automatic polishing disk inserts skin machine
CN202318509U (en) Coaxial drive mechanism of full-automatic linear bilateral-sealing edge sealing machine
CN102672574A (en) Primer sander
CN201922615U (en) Jointing machine
CN209552749U (en) A kind of automatic leather cover fillet molding machine
CN211193188U (en) Inner hole polishing device
CN211365114U (en) Product connects material to fold a packet device
CN105773343A (en) Panel side edge grinding equipment
CN105965159A (en) Full-automatic saw bit welding machine
CN209794727U (en) Front edge paper feeding mechanism of line touching machine for corrugated paper processing

Legal Events

Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model