CN205114595U - Automatic numbering machine of cut -parts turn over piece mechanism - Google Patents

Automatic numbering machine of cut -parts turn over piece mechanism Download PDF

Info

Publication number
CN205114595U
CN205114595U CN201520873098.1U CN201520873098U CN205114595U CN 205114595 U CN205114595 U CN 205114595U CN 201520873098 U CN201520873098 U CN 201520873098U CN 205114595 U CN205114595 U CN 205114595U
Authority
CN
China
Prior art keywords
cut
parts
flaps
guide rail
push jack
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.)
Withdrawn - After Issue
Application number
CN201520873098.1U
Other languages
Chinese (zh)
Inventor
秦建清
顾杰
钱卫波
龚华
张伟
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Changshu Bealead Automatic Machine Co Ltd
Original Assignee
Changshu Bealead Automatic Machine Co Ltd
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 Changshu Bealead Automatic Machine Co Ltd filed Critical Changshu Bealead Automatic Machine Co Ltd
Priority to CN201520873098.1U priority Critical patent/CN205114595U/en
Application granted granted Critical
Publication of CN205114595U publication Critical patent/CN205114595U/en
Withdrawn - After Issue legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model discloses an automatic numbering machine of cut -parts turn over piece mechanism, include the push jack pole and turn over piece power device, monolithic cut -parts after cut -parts separating mechanism will number and unnumbered cut -parts after -separating, the push jack pole arrives one side of unnumbered cut -parts in the monolithic cut -parts propelling movement of turning over after will numbering under the drive of piece power device, coding mechanism at first numbers the cut -parts of placing in the mechanism, then the monolithic cut -parts of cut -parts separating mechanism after will numbering and unnumbered cut -parts separation, the utility model discloses one side of unnumbered cut -parts is arrived in monolithic cut -parts propelling movement after automatic numbering machine of cut -parts turn over piece mechanism will number to the piece is turned over to automatic the completion, has overcome manual shortcoming of turning over the piece to clothing piece, has improved work efficiency, the reduction human cost.

Description

The Sheet turning device of cut-parts automatic number machine
Technical field
The utility model relates to a kind of Sheet turning device of cut-parts automatic number machine, and the Sheet turning device of this cut-parts automatic number machine is mainly used in (but being not limited to) clothes manufacture field.
Background technology
The garment piece that clothing cutting plate is not also sewed after referring to cutting, cut-parts can be pieces of cloth, can be also the scraps of paper, refer generally to pieces of cloth.Controlling a cut-parts quality most important link is: beat and fly (namely numbering), to cut-parts number be prevent fabric aberration or section poor, would not dyeing be produced when making like this.
At present, mostly adopt manual numbering to clothing cutting plate, manual numbering drawback is more, waste a large amount of human costs, inefficiency, and error probability is larger.In order to solve the problem of manual numbering, technical personnel develops automatic number machine, a kind of automatic numbering machine for clothing pieces disclosed in patent documentation CN201370140, comprise and be interconnected integral detent mechanism and printing mechanism, detent mechanism is suitable with the cloth of non-cutting, printing mechanism is used for carrying out printing numbering to the cut-parts of cloth by the location of detent mechanism on cloth, although this automatic numbering machine for clothing pieces overcomes the manual shortcoming be numbered clothing cutting plate, automatically can complete and the automatic numbering of clothing cutting plate is printed, improve efficiency, reduce human cost, but the numbering of this numbering machine prints carries out with paving cloth simultaneously, cutting is carried out again after paving cloth completes, limit the occasion of use, and the degree of manual intervention is still larger, automation can not be realized completely.
Utility model content
The purpose of this utility model is to provide a kind of Sheet turning device that automatically can carry out the cut-parts automatic number machine of flaps in a particular state to cut-parts, and realization is alternative manually automatic carries out automatic flaps to clothing cutting plate class article.
In order to reach above-mentioned technical purpose, the technical solution of the utility model is:
A kind of Sheet turning device of cut-parts automatic number machine, comprise push jack bar and flaps engine installation, after the monolithic cut-parts after numbering are separated with unnumbered cut-parts by cut-parts separation device, the monolithic cut-parts after numbering are pushed to the side of unnumbered cut-parts by push jack bar under flaps engine installation drives.
As preferably, described flaps engine installation comprises flaps first guide rail and flaps second guide rail, flaps first guide rail, flaps second guide rail is separately positioned on the both sides of placement mechanism, flaps first guide rail, flaps second guide rail includes guiding fixing elements guide track and moving meter slide block, push jack bar is arranged between flaps first guide rail and flaps second guide rail, one end of push jack bar is arranged on the slide block of flaps first guide rail, the other end of described push jack bar is arranged on the slide block of flaps second guide rail, first guide rail slide block, a slide block is had at least to be connected with flaps driver train in second guide rail slide block, flaps driver train drives slide block movement.
Flaps driver train comprises belt conveyor, and belt conveyor is connected with slide block, and one end of described belt conveyor is nested with on driving wheel, and the other end of belt conveyor is nested with on the driven wheel, and driving wheel is driven by motor.
Be connected with switching mechanism at described push jack bar, switching mechanism adopts oscillating cylinder.Described push jack bar is also provided with and smooths band, monolithic cut-parts after numbering are pushed to a rear flank to a lateral movement by push jack bar under flaps engine installation drives, push jack bar overturns under the drive of switching mechanism, make to smooth band to contact with unnumbered cut-parts or do not contact, when push jack bar during return, smooths band and unnumbered cut-parts smoothed under flaps engine installation drives.
Described push jack bar is arranged on the slide block of flaps first guide rail, flaps second guide rail by flaps erecting frame, and described switching mechanism is arranged on flaps erecting frame.
As preferably, described in smooth band and be made up of hairbrush.
First coding mechanism is numbered the cut-parts on placement mechanism, then the monolithic cut-parts after numbering are separated with unnumbered cut-parts by cut-parts separation device, monolithic cut-parts after numbering are pushed to the side of unnumbered cut-parts by the Sheet turning device of the utility model cut-parts automatic number machine, thus automatically complete flaps, overcome manual shortcoming of clothing cutting plate being carried out to flaps, improve work efficiency, reduce human cost.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail.
Fig. 1 is the structural representation of the utility model cut-parts automatic number machine.
Fig. 2 is placement mechanism structural representation.
Fig. 3 is coding mechanism and Sheet turning device structural representation.
Fig. 4 is cut-parts separation device structural representation.
Fig. 5 is cut-parts separation device web portion bit architecture schematic diagram.
Fig. 6 is cut-parts separation device connecting panel position structure schematic diagram.
Fig. 7 is cut-parts separation device other direction structural representation.
Detailed description of the invention
As shown in figs. 1-7, cut-parts automatic number machine comprises placement mechanism, coding mechanism, cut-parts separation device and Sheet turning device, and said mechanism is arranged in frame 2, is controlled by electric cabinet 1.Wherein:
(1) placement mechanism, as shown in Figure 2, comprise a material platform 101, cut-parts are placed on material platform 101, and material platform 101 is arranged on base 102 by lifting mechanism, and material platform 101 side is provided with the clamping device of clamping cut-parts.Lifting mechanism comprises motor 103, worm screw 111 and worm gear 110, and motor 103 is arranged on base 102, and base 102 is arranged in frame 2.Worm screw 111 top is connected with bottom material platform 101, motor 103 drives worm gear 110 to rotate, utilize worm gear 110, the transmission of worm screw 111 makes worm screw 111 rotate, have the screw thread coordinated with worm screw 111 in worm gear 110, worm gear 110 rotarily drives worm screw 111 and axially moves material platform 101 is elevated.Be provided with four guide pillars 108 bottom material platform 101, base 102 is provided with four guide pin bushings 107 coordinated with guide pillar 108, guide pillar 108 is arranged in guide pin bushing 107, thus the stroke that material platform 101 is limited at guide pin bushing 107 is elevated.
Material platform 101 limit is provided with the detecting device 112 and cut-parts detecting device (as shown in Figure 3) that detect cut-parts height, and the detection signal of described detecting device 112 controls lifting mechanism action.Detecting device 112 can adopt opto-electronic pickup, the cut-parts detecting device that blowing edge of table is arranged, and for detecting on material platform whether have cut-parts, cut-parts detecting device can adopt the detecting device of opto-electronic pickup one class, also can adopt photodetector system.
When cut-parts detecting device detects and material platform 101 has cut-parts, start the motor 103 of lifting mechanism, by material platform 101 jacking to height detection position.When normal work, when cut-parts are constantly by coding, the height of cut-parts will constantly decline, when the cut-parts that detecting device detects on material platform 101 are highly too low, detecting device 112 signal sends lifting mechanism to, and lifting mechanism is raised, and allows the cut-parts on material platform 101 highly be in predetermined height.When the cut-parts height on material platform 101 constantly reduces because working, detecting device 112 signal sends lifting mechanism to, makes lifting mechanism work, and such lifting mechanism can by judging the height and position automatic lifting of cut-parts on material platform 101.
Above-mentioned clamping device comprises grip block 105, and grip block 105 is connected with the piston rod 106 of cylinder 104, and described cylinder 104 is arranged on material platform 101, and the motion of cylinder 101 piston rod 106 drives grip block 105 by the cut-parts clamping on material platform 101.Cut-parts for numbering can be fixed by clamping device on the one hand, on the other hand, when the monolithic cut-parts after numbering are pushed to opposite side (namely the installing this side of clamping device) of unnumbered cut-parts by Sheet turning device, numbered cut-parts are fixed by clamping device, and bundle together.
(2) coding mechanism, introduce two kinds of embodiments at this:
1) coding mechanism adopts stamp mode:
Coding mechanism comprises stamp device, stamp device is as code printer, this mechanism is as seal principle, because code printer operationally needs to fix, therefore, stamp device is fixedly mounted on placement mechanism limit (specifically top), stamp device up-and-down movement (as seal), thus stamp device is numbered the cut-parts on material platform 101.
2) coding mechanism adopts coding mode:
As shown in Figure 3, the engine installation that coding mechanism comprises spray code spraying apparatus 208 (employing ink jet numbering machine) and drives spray code spraying apparatus 208 to move, engine installation drives spray code spraying apparatus 208 through placement mechanism, and the cut-parts on spray code spraying apparatus 208 pairs of material platforms 101 are numbered.
Engine installation comprises the first guide rail and the second guide rail, first guide rail, the second guide rail are separately positioned on the both sides of placement mechanism, first guide rail comprises guiding fixing elements guide track 201 and moving meter slide block, second guide rail comprises guiding fixing elements guide track 205 and moving meter slide block 206, be provided with erecting frame 207 between first guide rail and the second guide rail, spray code spraying apparatus 208 is arranged on erecting frame 207; One end of described erecting frame 207 is arranged on the slide block of the first guide rail, the other end of described erecting frame 207 is arranged on the slide block 206 of the second guide rail, first guide rail is as active guide rail, and the first guide rail slide block is connected with driver train, and driver train drives the first guide rail slide block motion.Guide track 201 limit of the first guide rail is provided with the detecting device of detection first guide rail top shoe position.At this, the first guide rail or the second guide rail all can as active guide rails, and which guide rail is as active guide rail, and the slide block of which guide rail is just connected with driver train.Or the slide block of two guide rails is all connected with driver train.
Driver train can be realized by following scheme: comprise belt conveyor 202, belt conveyor 202 is connected with the first guide rail slide block, one end of belt conveyor 202 is nested with on driving wheel 203, and the other end of belt conveyor 202 is nested with on flower wheel 204, and driving wheel 203 is driven by motor.
(3) cut-parts separation device is for being separated the monolithic cut-parts after numbering with unnumbered cut-parts.As shown in figs. 4-7, cut-parts separation device comprises contact element 301, and (contact element 301 adopts roller bearing, roll when being convenient to change adhesive tape 315), the surface of contact element 301 is provided with sticker, particularly, the surface of contact element 301 is provided with adhesive tape 315, and sticker is the sticker of adhesive tape 315 bonding plane.Contact element 301 is connected on the second action part part, and the second action part part is connected on connecting panel 306, and connecting panel 306 is connected with the first action part part.The first action part part, the second action part part are cylinder, namely contact element 301 is connected on the piston rod of cylinder 320 (the second action part part), cylinder 320 is connected on connecting panel 306, connecting panel 306 is connected with the piston rod of another cylinder 319 (the first action part part), and 319, another cylinder is installed on a mounting board.
Be arranged on the piston rod action of adapter plate upper cylinder 319, drive connecting panel 306 action, thus drive the action of connecting panel 306 upper cylinder 320, contact element 301 action that final drive is connected with connecting panel 306 upper cylinder 320, relies on the sticker of adhesive tape to adhere to cut-parts and drives the cut-parts adhered to be separated with unnumbered cut-parts after making contact element 301 contact cut-parts.
Connecting panel 306 is connected with contact element 301 by cylinder 320, is to have spring-like the same pooling feature when making contact element 301 contact cut-parts.In order to realize this function, now cylinder 320 can adopt needle-like cylinder, also can apply the air pressure realization of some strength to cylinder 320.In addition, when contact element 301 pull-up cut-parts, the action of the second action part part bounce back, namely cylinder 320 shrinks piston rod, and adhesive tape 315 can be made like this to be in relaxed state, cut-parts be pulled up tight after, the adhesive tape 315 of relaxed state can not depart from easily with cut-parts.
When the surface of contact element 301 arranges adhesive tape 315, connecting panel 306 is also provided with driving wheel 303 and flower wheel 302, the tape roll 304 of adhesive tape 315 is mounted and fixed on flower wheel 302, flower wheel 302 selects damping wheel, adhesive tape end is walked around contact element 301 and is connected on driving wheel 303, driving wheel 303 rotates and drives the tape roll 304 on flower wheel 302 to rotate, constantly update the adhesive tape 315 on contact element 301, thus reach the object changing adhesive tape 315, make the adhesive tape 315 on contact element 301 remain stickness.
In order to change the path that adhesive tape 315 is walked, between described driving wheel 303 and flower wheel 302, connecting panel 306 is provided with some guiding rollers 305 for changing adhesive tape 315 direction of travel, guiding roller 305 adopts antistatic material to make.
In order to fixation adhesive tape 315, on described contact element 301 limit, described adapter plate 306 is provided with grip block 316, described grip block 316 bilateral symmetry is provided with cylinder 317,318, the adhesive tape 315 walking around contact element 301 both sides lays respectively between cylinder 317,318 and grip block 316, namely side adhesive tape 315 is between grip block 316 and the cylinder 317 of its left end, opposite side adhesive tape 315 is between grip block 316 and the cylinder 318 of its right-hand member, and adhesive tape 315 is clamped between piston rod and grip block 316 by the piston rod action of such cylinder 317,318.Certainly, cylinder can be set on grip block 316, the both sides of grip block 316 are provided with adsorption hole, in the piston rod action of cylinder 317,318, adhesive tape 315 is clamped to after between piston rod and grip block 316, adhesive tape 315 is adsorbed on grip block 316 by the action of grip block 316 upper cylinder, now cylinder 317,318 just restorable.
For the ease of regulating the position (transverse direction) between contact element 301 and placement mechanism, adapter plate is arranged on cross travel regulating mechanism.Adapter plate under the drive of cross travel regulating mechanism, the position between lateral adjustments contact element and placement mechanism.
As shown in Figure 7, described cross travel regulating mechanism comprises horizontal erecting frame 307, horizontal erecting frame 307 is provided with transverse ball lead screw and cross slide way 310, transverse slider 308 and the adapter plate of transverse ball lead screw link together, the transverse screw 309 of transverse ball lead screw is arranged on horizontal erecting frame 307, motor 322 drives the transverse screw 309 of transverse ball lead screw to rotate, and transverse screw 309 drives transverse slider 308 cross travel of transverse ball lead screw.
In order to regulate the lengthwise position between contact element and placement mechanism, described cross travel regulating mechanism is arranged on longitudinal travel regulating mechanism.Described longitudinal travel regulating mechanism comprises longitudinal erecting frame 311, longitudinal erecting frame 311 is provided with longitudinal ball screw and longitudinal rail 312, the longitudinal screw 313 of longitudinal ball screw is arranged on longitudinal erecting frame 311, motor 323 drives the longitudinal screw 313 of longitudinal ball screw to rotate, longitudinal sliding block is linked together with horizontal erecting frame 307 by longitudinal adapter plate 314, and longitudinal screw 313 drives the longitudinal sliding block longitudinal travel of longitudinal ball screw.
Certainly, in order to merely regulate horizontal, the lengthwise position between contact element and placement mechanism, described adapter plate can be directly installed on cross travel regulating mechanism, longitudinal travel regulating mechanism respectively.In order to namely regulate horizontal position, can regulate lengthwise position again, cross travel regulating mechanism and longitudinal travel regulating mechanism use simultaneously.
Whether depart to detect cut-parts, described cut-parts separation device limit is provided with position transduser, and position transduser can adopt the detecting device of opto-electronic pickup one class.
(4) the monolithic cut-parts after numbering, after the monolithic cut-parts after numbering are separated with unnumbered cut-parts by cut-parts separation device, are pushed to the side of unnumbered cut-parts by Sheet turning device.
As shown in Figure 3, Sheet turning device comprises push jack bar 209 and flaps engine installation, and after the monolithic cut-parts after numbering are separated with unnumbered cut-parts by cut-parts separation device, the monolithic cut-parts after numbering are pushed to side by push jack bar 209 under flaps engine installation drives.
Flaps engine installation comprises flaps first guide rail and flaps second guide rail, flaps first guide rail, flaps second guide rail is separately positioned on the both sides of placement mechanism, flaps first guide rail, flaps second guide rail includes guiding fixing elements guide track and moving meter slide block, push jack bar 209 is arranged between flaps first guide rail and flaps second guide rail, one end of push jack bar 209 is arranged on the slide block of flaps first guide rail, the other end of described push jack bar 209 is arranged on the slide block of flaps second guide rail, first guide rail slide block, a slide block is had at least to be connected with flaps driver train in second guide rail slide block, driver train drives slide block movement.
Described flaps driver train comprises belt conveyor, and belt conveyor is connected with slide block, and one end of described belt conveyor is nested with on driving wheel, and the other end of belt conveyor is nested with on the driven wheel, and driving wheel is driven by motor.
Described push jack bar 209 is connected with switching mechanism (as adopted oscillating cylinder 212), described push jack bar 209 is also provided with and smooths band 210, smooth band 210 in Fig. 3 to be made up of hairbrush, monolithic cut-parts after numbering are pushed to a rear flank of unnumbered cut-parts by push jack bar 209 under flaps engine installation drives to a lateral movement, push jack bar 209 overturns under the drive of switching mechanism, make to smooth band 210 to contact with unnumbered cut-parts or do not contact, when push jack bar 209 during return, smooths band 210 and unnumbered cut-parts smoothed under flaps engine installation drives.
Described push jack bar 209 is arranged on the slide block of flaps first guide rail, flaps second guide rail by flaps erecting frame, and described switching mechanism is arranged on flaps erecting frame.
In the present embodiment, the engine installation of flaps engine installation and coding mechanism (when adopting coding mode) adopts same group of power, namely push jack bar 209 is arranged on the erecting frame 207 of the engine installation of coding mechanism, and the switching mechanism be connected with push jack bar 209 is also arranged on the erecting frame 207 of engine installation.Now, flaps first guide rail is the first guide rail, and flaps second guide rail is the second guide rail.Equally, actuating device is also identical.
(coding mode is adopted) during use:
Cut-parts adopt auxiliary clamp folder flat, cut-parts are placed on material platform 101 by tracking cross position, grip block 105 on material platform 101 clamps cut-parts, the cut-parts detecting device (fiber laser arrays) that material platform 101 limit is arranged detects on material platform 101 whether have cut-parts, when detect material platform 101 has cut-parts time, start the motor 103 of lifting mechanism, by material platform 101 jacking to height detection position.When normal work, when cut-parts are constantly by coding, the height of cut-parts will constantly decline, now the detecting device 112 on material platform 101 limit detects the height and position of cut-parts, position probing 112 signal sends the motor 103 of material platform 101 lifting mechanism to, and motor 103 is coordinated material platform 101 jacking to predetermined height (this height be coding mechanism can to the height of cut-parts during cut-parts normal encoding) by worm screw 111, worm gear 110 and screw mandrel 109.
Now, the fiber laser arrays cut-parts front and back position that coding mechanism engine installation is arranged is as operation point, and cut-parts separation device then confirms adhesion locations with PLC program computation.
Coding mechanism engine installation drive under through placement mechanism, when coding mechanism engine installation moves to terminal, push jack bar 209 overturns under the drive of oscillating cylinder 212, the band 210 that smooths be made up of hairbrush is made to contact with unnumbered cut-parts and (or not contact, when unnumbered cut-parts are comparatively smooth, smooth band 210 not contact with unnumbered cut-parts), when push jack bar 209 coding mechanism engine installation drive under return time (under the now drive of coding mechanism at engine installation, returning initial position), the spray code spraying apparatus of coding mechanism is numbered the cut-parts on placement mechanism, now, smooth band 210 and smooth cut-parts.Certainly, the utility model does not limit the opportunity that spray code spraying apparatus is numbered, and is numbered during this period of time as moved to terminal at coding mechanism engine installation.
When coding mechanism runs to terminal (cut-parts operation point) under engine installation drives, smoothing band 210 can push down cut-parts gently in cut-parts.
Cut-parts separation device works, namely the downward action of piston rod of adapter plate upper cylinder 319 is arranged on, drive connecting panel 306 action downwards, thus drive the overall action downwards of connecting panel 306 upper cylinder 320, the downward action of connecting panel 306 upper cylinder 320 piston rod, the action downwards of connected contact element 301, relies on the sticker of adhesive tape 315 to adhere to cut-parts after making contact element 301 contact cut-parts.Wherein, the air pressure of cylinder 319 is greater than the air pressure of cylinder 320, is used for guaranteeing to adhere to.
Then, in order to ensure cut-parts relaxed state, the first upwards action of cylinder 320 piston rod, the upwards action again of cylinder 319 piston rod, drives the cut-parts upward movement after contact element 301 adhesion numbering to be separated with unnumbered cut-parts.Drive the contact element 301 of cut-parts upwards the dynamics of action be greater than and smooth the dynamics that cut-parts pushed down by band 210, and ensure that this dynamics should be less than the dynamics that adhesive tape 315 adheres to cut-parts, the cut-parts of adhesion so just can be driven to be separated with unnumbered cut-parts.
Whether the position transduser (fiber optic detection system) that cut-parts separation device limit is arranged detects cut-parts (having numbered and unnumbered cut-parts) and departs from.Now, driving wheel 303 rotates and drives the tape roll 304 on flower wheel 302 to rotate, and upgrades the adhesive tape 315 on contact element 301.Whether the position transduser (fiber optic detection system) that cut-parts separation device limit is arranged again detects cut-parts (having numbered and unnumbered cut-parts) and departs from.During disengaging, push jack bar 209 overturns return under the drive of oscillating cylinder 212.
Monolithic cut-parts after numbering, under the drive of coding mechanism engine installation, are pushed to side (with grip block 105 for benchmark, side is unnumbered cut-parts, and side is numbered cut-parts) by the push jack bar 209 of Sheet turning device.
Push jack bar 209 overturns under the drive of oscillating cylinder 212, makes the band 210 that smooths be made up of hairbrush change the state of smoothing into.Spray code spraying apparatus 208 smooths the first coding of cut-parts under the drive of engine installation.
Repeat above-mentioned action to last cut-parts.When cut-parts detecting device detects without cut-parts, elevator return, coding mechanism and cut-parts separation device are repositioned to initial point, and the cylinder 104 unclamping clamping device gets the cut-parts after numbering.
Above-described embodiment limits the utility model never in any form, and the technical scheme that the mode that every employing is equal to replacement or equivalent transformation obtains all drops in protection domain of the present utility model.

Claims (7)

1. the Sheet turning device of a cut-parts automatic number machine, it is characterized in that comprising push jack bar and flaps engine installation, after the monolithic cut-parts after numbering are separated with unnumbered cut-parts by cut-parts separation device, the monolithic cut-parts after numbering are pushed to the side of unnumbered cut-parts by push jack bar under flaps engine installation drives.
2. the Sheet turning device of a kind of cut-parts automatic number machine according to claim 1, it is characterized in that: described flaps engine installation comprises flaps first guide rail and flaps second guide rail, flaps first guide rail, flaps second guide rail is separately positioned on the both sides of placement mechanism, flaps first guide rail, flaps second guide rail includes guiding fixing elements guide track and moving meter slide block, push jack bar is arranged between flaps first guide rail and flaps second guide rail, one end of push jack bar is arranged on the slide block of flaps first guide rail, the other end of described push jack bar is arranged on the slide block of flaps second guide rail, first guide rail slide block, a slide block is had at least to be connected with flaps driver train in second guide rail slide block, flaps driver train drives slide block movement.
3. the Sheet turning device of a kind of cut-parts automatic number machine according to claim 2, it is characterized in that: described flaps driver train comprises belt conveyor, belt conveyor is connected with slide block, one end of described belt conveyor is nested with on driving wheel, the other end of belt conveyor is nested with on the driven wheel, and driving wheel is driven by motor.
4. the Sheet turning device of a kind of cut-parts automatic number machine according to claim 1,2 or 3, it is characterized in that: described push jack bar is connected with switching mechanism, described push jack bar is also provided with and smooths band, monolithic cut-parts after numbering are pushed to a rear flank to a lateral movement by push jack bar under flaps engine installation drives, push jack bar overturns under the drive of switching mechanism, make to smooth band to contact with unnumbered cut-parts or do not contact, when push jack bar during return, smooths band and unnumbered cut-parts smoothed under flaps engine installation drives.
5. the Sheet turning device of a kind of cut-parts automatic number machine according to claim 4, is characterized in that: described push jack bar is arranged on the slide block of flaps first guide rail, flaps second guide rail by flaps erecting frame, and described switching mechanism is arranged on flaps erecting frame.
6. the Sheet turning device of a kind of cut-parts automatic number machine according to claim 4, is characterized in that: described in smooth band be made up of hairbrush.
7. the Sheet turning device of a kind of cut-parts automatic number machine according to claim 4, is characterized in that: described switching mechanism is oscillating cylinder.
CN201520873098.1U 2015-11-04 2015-11-04 Automatic numbering machine of cut -parts turn over piece mechanism Withdrawn - After Issue CN205114595U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520873098.1U CN205114595U (en) 2015-11-04 2015-11-04 Automatic numbering machine of cut -parts turn over piece mechanism

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520873098.1U CN205114595U (en) 2015-11-04 2015-11-04 Automatic numbering machine of cut -parts turn over piece mechanism

Publications (1)

Publication Number Publication Date
CN205114595U true CN205114595U (en) 2016-03-30

Family

ID=55570221

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201520873098.1U Withdrawn - After Issue CN205114595U (en) 2015-11-04 2015-11-04 Automatic numbering machine of cut -parts turn over piece mechanism

Country Status (1)

Country Link
CN (1) CN205114595U (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105293132A (en) * 2015-11-04 2016-02-03 常熟市百联自动机械有限公司 Cut-part overturning mechanism of automatic cut-part numbering machine
CN105962511A (en) * 2016-06-27 2016-09-28 常熟市百联自动机械有限公司 Automatic numbering machine and piece turning mechanism thereof

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105293132A (en) * 2015-11-04 2016-02-03 常熟市百联自动机械有限公司 Cut-part overturning mechanism of automatic cut-part numbering machine
CN105293132B (en) * 2015-11-04 2017-12-12 常熟市百联自动机械有限公司 The Sheet turning device of cut-parts automatic number machine
CN105962511A (en) * 2016-06-27 2016-09-28 常熟市百联自动机械有限公司 Automatic numbering machine and piece turning mechanism thereof

Similar Documents

Publication Publication Date Title
CN105249585A (en) Automatic numbering machine of cutting pieces
CN104148920B (en) Knuckle spindle bearing material press-fits production line
CN104385420B (en) Automatic branding boring labelling machine
CN206927263U (en) Sucker clamp
CN105252909A (en) Encoding piece turning mechanism with automatic cut piece numbering machine
CN205106488U (en) Cut -parts separating mechanism of automatic numbering machine of cut -parts
CN205114595U (en) Automatic numbering machine of cut -parts turn over piece mechanism
CN205106489U (en) Automatic numbering machine of cut -parts
KR20120031664A (en) Automatic tape attaching apparatus
CN208230238U (en) Glue dispensing and packaging device
CN204248341U (en) The full-automatic cover plate assembly machine of flat plate collector three groups
CN205106487U (en) Automatic numbering machine of cut -parts place mechanism
CN205112668U (en) Code of automatic numbering machine of cut -parts turns over piece mechanism
CN105249583B (en) The placement mechanism of cut-parts automatic number machine
CN105249584A (en) Cutting piece separation mechanism of automatic cutting piece numbering machine
CN102774689A (en) Movable cloth pressing device for automatic cloth paving machine
CN105293132A (en) Cut-part overturning mechanism of automatic cut-part numbering machine
CN204235663U (en) Automatic branding boring labelling machine
CN204769419U (en) Full autoloading labelling machine
CN108708085B (en) Vertical sewing machine does not have intermittent type feeder
CN102774691A (en) Fixed cloth pressing device used for automatic cloth paving machine
CN113501321B (en) Screen frame storage device and system, printing assembly line, screen frame storage method and screen frame
CN216375395U (en) Box sealing labeling machine
CN205151122U (en) Narrowband sorting machine
CN209440921U (en) Carton automatic film covering device

Legal Events

Date Code Title Description
C14 Grant of patent or utility model
GR01 Patent grant
AV01 Patent right actively abandoned
AV01 Patent right actively abandoned

Granted publication date: 20160330

Effective date of abandoning: 20171212