CN106695984A - Slicer - Google Patents

Abstract

The embodiment of the invention provides a slicer. The slicer is used for cutting die-cut products attached to a feeding belt. The slicer comprises a cutting module. The slicer further comprises a rotation module for adjusting the cutting angle of the cutting module relative to the feeding belt and a control module. The rotation module comprises a rotary seat allowing the cutting module to be arranged thereon and a rotary power assembly used for driving the rotary seat to rotate to drive the cutting module to rotate relative to a to-be-sliced material belt so as to adjust the cutting angle of the cutting module. The control module comprises a detection assembly for scanning and recognizing the feeding belt and a data processing unit used for analyzing and computing the recognition result of the detection assembly to determine the required rotation cutting angle of the cutting module relative to the feeding belt so as to control the rotary power assembly to work. According to the slicer, the cutting angle required by the cutting module relative to the feeding belt can be adjusted automatically, the whole process is automatic, the machining efficiency of the slicer can be improved effectively, and the machining cost of the slicer can be lowered effectively.

Description

Slicer

Technical field

The present invention relates to slicing device technical field, more particularly to a kind of slicer for automatically adjusting cross cutting angle.

Background technology

With the development of electronics industry, electronic product is increasingly minimized and Highgrade integration, and corresponding process technology is increasingly Smart, thin, micro-, thin, this causes that the mode that production is assembled has very big change, therefore corresponding some nonmetallic materials（For example Insulating materials, packing, heat-resisting heat-barrier material, sticker material and dust-proof material etc.）It is widely used in electronics industry.

Brightening piece in the backlight module of liquid crystal display need to first be carried out using die-cutting machine to the die cut material layer on material strip Cross cutting processes product die cut material layer is cut into chunks again, because in process is die cut, the otch of brightening piece must be with material With direction of feed into predetermined angle, as shown in Figures 1 and 2, this product of processing of cutting has two kinds of arrangement modes of A, B, using A During arrangement mode, because typical microtome can not adjust angle, thus cannot be cut off using slicer after completing to cut, Zhi Nengren Work is cut along the cutting line shown in Fig. 1 dotted lines, and not only efficiency comparison is low, and increased the possibility that product is scratched；And use B During arrangement mode, although can be cut off using traditional slicer after cross cutting, but this kind of arrangement mode compares waste of materials, The product of equal number is done, B arrangement modes need multipurpose material 10%-20% than A arrangement mode, and material cost is high.

The content of the invention

The embodiment of the present invention technical problem to be solved is, there is provided a kind of slicer, automatically adjusts and cuts angle, improves Processing efficiency and reduction processing cost.

To solve the above problems, the technical scheme that the embodiment of the present invention is used is：A kind of slicer is provided, for attaching Cut in the die cutting product on feeding belt, the slicer includes cutting module；The slicer is also included for adjusting The rotary module and control module that cut angle of the module relative to feeding belt are cut, the rotary module is included for cutting module The rotating seat that is arranged at and make to cut module for driving rotating seat to rotate and be rotated into relative to the feeding belt of slice And adjust the rotary power component for cutting angle for cutting module；The control module includes being scanned identification to feeding belt The recognition result of detection components described in detection components and analytical calculation is rotated with determining to cut module relative to needed for feeding belt Cut angle and then control the data processing unit of the rotary power component operation.

Further, the slicer also includes the feeding module for transmitting the feeding belt, and the detection components set It is placed in the top of feeding belt transmitting path in feeding module.

Further, the feeding module includes the adsorption plate being connected with negative pressure device, the biography passed through for feed material strip The feeding Power Component for sending roller pair and driving the drive roll in the transport roller pair to rotate, offers for producing on adsorption plate Negative-pressure sucking makes feeding belt be attached at the negative pressure sucker that absorption plate surface is steadily advanced, and the detection components are set by means of suspension beam In the top of adsorption plate.

Further, the detection components are the color mark sensor detected to die cutting product edge.

Further, the suspension beam includes two bases of the feeding belt travel path both sides for being respectively arranged in adsorption plate Seat, the slide bar for being installed on pedestal and being axially parallel to feeding belt direct of travel and two ends are respectively slidably assembled in correspondence Slide bar on crossbeam, the detection components are slidably installed on the crossbeam.

Further, it is described cut that module includes being fixed on rotating seat cut base, be installed on and described cut base Go up and cooperate to cut the upper cutter and lower cutter of the die cutting product on feeding belt, drive upper cutter to be lifted with respect to lower cutter It is mobile to cut force piece and be connected to the eccentric ratio component cut between force piece and upper cutter.

Further, the rotary power component include the fixed seat that is fixedly connected with rotating seat and fixed seat be connected with The rotating shaft of fixed seat rotation is driven, providing the rotary power part of rotary power for rotating shaft by driving member.

Further, the rotary power part is servomotor, and the driving member is toothed belt transmission part.

Further, the data processing unit is encoder for servo motor.

Further, the fixed seat is provided with T-slot, and the rotating seat is provided with the limit corresponding with the T-slot Position block, cut the T-slot after module is rotated in place it is corresponding with limited block lock and the fixed seat and rotating seat is relative It is fixed.

Using above-mentioned technical proposal, the embodiment of the present invention at least has the advantages that：The embodiment of the present invention is by carrying For a kind of slicer, identification is scanned to the die cutting product edge on feeding belt using the detection components of control module, then Calculating treatment is carried out to the result of scanning recognition by data processing unit, is drawn and is cut module relative to the sanction needed for feeding belt Corner cut degree, then controls rotary module to drive and cuts module rotation and adjust automatically cuts the angle that cuts of module, whole-process automatic Change, can effectively improve the processing efficiency of slicer and reduce processing cost.

Meanwhile, by the scanning recognition of detection components, can effectively ensure the length spacing of each feeding V belt translation, improve The precision of processing of cutting.

Brief description of the drawings

Fig. 1 is a kind of product feeding belt arrangement schematic diagram of slicer of the present invention.

Fig. 2 is slicer another kind product feeding belt arrangement schematic diagram of the present invention.

Fig. 3 is the stereogram of the rotary module of slicer one embodiment of the present invention.

Fig. 4 is the stereogram of slicer one embodiment of the present invention.

Fig. 5 is the enlarged drawing of part A in Fig. 4.

Fig. 6 is the rotary module of slicer one embodiment of the present invention and cut the stereogram that module is combined.

Fig. 7 is the stereogram that module is combined with rotating seat that cuts of slicer one embodiment of the present invention.

Specific embodiment

The present invention is described in further detail with specific embodiment below in conjunction with the accompanying drawings.It should be appreciated that following signal Property embodiment and explanation only be used for explain the present invention, it is not as a limitation of the invention, and, in the case where not conflicting, The feature in embodiment and embodiment in the present invention can be combined with each other.

As shown in Fig. 3 ~ Fig. 7, the embodiment of the present invention provides a kind of slicer, for the cross cutting to being attached on feeding belt 71 Product 72 is cut, and the slicer includes cutting module 1；The slicer is also relative including cutting module 1 for adjustment In the rotary module 2 and control module 3 that cut angle of feeding belt 71, the rotary module 2 includes being arranged at for cutting module 1 On rotating seat 21 and make to cut module 1 for driving rotating seat 21 to rotate and be rotated into relative to the feeding belt 71 of slice And adjust the rotary power component for cutting angle for cutting module 1；The control module 3 includes being scanned knowledge to feeding belt 71 The recognition result of detection components 31 described in other detection components 31 and analytical calculation is determining to cut module 1 relative to feeding belt The data processing unit for cutting angle and then the control rotary power component operation of required rotation（It is not shown）.

The embodiment of the present invention by providing a kind of slicer, using the detection components 31 of control module 3 on feeding belt 71 The edge of die cutting product 72 be scanned identification, the result of scanning recognition is carried out at calculating by data processing unit then Reason, show that cut module 1 cuts angle needed for relative to feeding belt 71, then controls the drive of rotary module 3 to cut module 1 and revolves Then adjust automatically cuts the angle that cuts of module 1, whole-course automation can effectively improve processing efficiency and the reduction of slicer Processing cost.

Meanwhile, by the scanning recognition of detection components 31, can effectively ensure the length spacing of the transmission of each feeding belt 71, Improve the precision of processing of cutting.

In one alternate embodiment, the slicer also includes the feeding module 4 for transmitting the feeding belt 71, institute State the top that detection components 31 are arranged at the transmitting path of feeding belt 71 in feeding module 4；Specifically, the feeding module 4 includes With negative pressure device（It is not shown）Connected adsorption plate 41, the transport roller pair 6 passed through for feed material strip 71 and drive described The feeding Power Component of the rotation of drive roll 62 in transport roller pair 6（It is not shown）, offered on adsorption plate 41 negative for producing Pressure suction makes feeding belt 71 be attached at the negative pressure sucker that the surface of adsorption plate 41 is steadily advanced（The non-label of figure）, the detection components 31 By means of suspension beam 45 located at the top of adsorption plate 41；In a specific embodiment, the negative pressure device is induced-draught fan；Institute Stating the driven voller 61 in transport roller pair 6 is used to push down feeding belt 71.

In the present embodiment, can be effectively adsorbed in feeding belt 71 is smooth on adsorption plate 41 using negative pressure device, be easy to Follow-up feeding and cut the carrying out of operation.

In a specific embodiment, the detection components 31 are the colour code sensing detected to die cutting product edge Device.

In the present embodiment, color mark sensor can be to detecting, even if background color has trickle difference to various labels Other color may also detect that processing speed is fast.It is simultaneously automatic to adapt to wavelength, the small differences of gray value can be detected, with The blend color of label and background is unrelated.

Color mark sensor is usually used in detecting the spot on specific colour code or object that it is relatively come by compared with non-color scale space Color spot graph is realized, rather than direct measurement color.Color mark sensor is really a kind of reversing device, and light source is perpendicular to object Body is installed, and receiver is installed with object direction at an acute angle, allows it only to detect the scattering light from target object, so as to avoid passing Sensor directly receives reflected light, and it is very narrow to focus on light beam.

In one alternate embodiment, the suspension beam 45 includes two rows of feeding belt 71 for being respectively arranged in adsorption plate 41 The pedestal 42 of inbound path both sides, the slide bar 43 for being installed on pedestal 42 and being axially parallel to the direct of travel of feeding belt 71 and two ends The crossbeam 44 on corresponding slide bar is respectively slidably assembled in, the detection components 31 are slidably installed on the crossbeam 44 On.

In the present embodiment, using the suspension beam 45 can easily detection components 31 described in two-dimensional adjustment position so that Detection components 31 can more have accurately the die cutting product 72 on feeding belt 71 is identified.

In one alternate embodiment, the module 1 that cuts includes that what is be fixed on rotating seat 21 cuts base 11, installs In it is described cut on base 11 and cooperate with cut the die cutting product 72 on feeding belt 71 upper cutter 12 and lower cutter 13, Driving upper cutter 12 cuts force piece 14 and upper cutter with respect to cutting force piece 14 and being connected to for the lifting moving of lower cutter 13 Eccentric ratio component 15 between 12.

Specifically, the eccentric ratio component 15 is slider-crank mechanism or crank-rocker mechanism.

In the present embodiment, the slider-crank mechanism is to be realized rotating and moving the flat of mutual conversion with crank and sliding block Face linkage, also referred to as toggle；The sliding block of slider-crank mechanism has quickreturn characteristics, for example：Sawing machine is exactly to utilize This characteristic come reach saw blade slow-motion and idle running suddenly return purpose.The principle of the crank-rocker mechanism and the crank block Mechanism is similar.

In one alternate embodiment, the rotary power component include be fixedly connected with rotating seat 21 fixed seat 22, It is the rotation that rotating shaft 23 provides rotary power to be connected with fixed seat 22 to drive the rotating shaft 23 of the rotation of fixed seat 22, by driving member 25 Rotatory force part 24；Specifically, the rotary power part 24 is servomotor, and the driving member 25 is toothed belt transmission part, described Fixed seat 22 is turbine, and the rotating shaft 23 is worm screw.

In the present embodiment, servomotor refers to the engine of the control machinery element operating in servo-drive system, is a kind of benefit Help the indirect speed change gear of motor.

Servomotor can make control speed, and positional precision is very accurate, voltage signal can be converted into torque and rotating speed With drive control object.Servo motor rotor rotating speed is controlled by input signal, and energy fast reaction, in automatic control system, As executive component, and with characteristics such as electromechanical time constant small, the linearity is high, pickup voltages, can be the electric signal for being received The angular displacement being converted on motor reel or angular speed are exported.It is divided into direct current and the major class of AC servomotor two, its main spy Point is, when signal voltage is zero without rotation phenomenon, rotating speed uniform descent with the increase of torque.

And turbine is a kind of rotary power machinery that the energy of flow working medium is converted to mechanical work；Worm screw refers to have One or several helical tooths, and engaged with worm gear and constitute the gear of gear pair with non-parallel.Its reference surface can be cylinder Face, circular conical surface or anchor ring.

By using cooperatively for rotary power part 24, fixed seat 22 and rotating shaft 23, can quickly realize that the regulation of rotary module 2 is cut out Cut module 1 and cut angle needed for relative to feeding belt 71, device is simple.

Meanwhile, toothed belt transmission part is set and is conducive to designing the arrangement of rotary module internal structure so that its structure is more Plus flexibly.

In a specific embodiment, the data processing unit is encoder for servo motor.

In the present embodiment, encoder for servo motor is mounted on servomotor for measuring position of magnetic pole and servomotor A kind of sensor of corner and rotating speed, divides from the difference of physical medium, and encoder for servo motor can be divided into photoelectric encoder And magnetism encoder, in addition rotary transformer also calculate a kind of special encoded servo device, cheap with reliability, antipollution The features such as.

In a specific embodiment, the fixed seat 22 is provided with T-slot（It is not shown）, set on the rotating seat 21 There is the limited block corresponding with the T-slot（It is not shown）, cutting the T-slot and limited block pair after module is rotated in place Should lock and be relatively fixed the fixed seat 22 and rotating seat 21.

In the present embodiment, by using cooperatively for T-slot and limited block, effectively fixed seat 22 and rotating seat 21 can be consolidated Surely link together.

The implementation principle of the embodiment of the present invention is：Feeding belt 71 is positioned on adsorption plate 41 and one end passes through feeding module 4 transport roller pair 6, opens negative pressure device, is adsorbed in feeding belt 71 is smooth on adsorption plate 41, then, starts feeding power Component, drives feeding belt 71 to advance to the direction of module 1 is cut；Meanwhile, the detection components 31 of control module 3 are on feeding belt 71 Die cutting product 72 is scanned identification, the number that the information transmission that will be obtained after identification is included to control module 3, control module 3 Information is processed according to processing unit, is obtained cutting module 1 and is cut angle information, Ran Hougen needed for relative to feeding belt 71 According to treatment obtain cut angle information control rotary module 2 drive cut module 1 rotate so as to adjust cut module 1 relative to Feeding belt 71 cuts angle, and whole-process automatic regulation can effectively improve processing efficiency and improve the utilization rate of raw material.

If function described in the embodiment of the present invention is to realize in the form of software function module or unit and as independent Production marketing or when using, can store in a computing device read/write memory medium.Based on such understanding, the present invention The part or the part of the technical scheme that embodiment contributes to prior art can be embodied in the form of software product Come, the software product is stored in a storage medium, including some instructions are used to so that a computing device（Can be personal Computer, server, mobile computing device or network equipment etc.）Perform each embodiment methods described of the invention whole or Part steps.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage（ROM, Read-Only Memory）、 Random access memory（RAM, Random Access Memory）, magnetic disc or CD etc. are various can be with store program codes Medium.Each embodiment is described by the way of progressive in this specification, and what each embodiment was stressed is and other realities Apply the difference of example, between each embodiment same or similar part mutually referring to.

Although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with Understanding can carry out various changes, modification, replacement to these embodiments without departing from the principles and spirit of the present invention And modification, the scope of the present invention limits by appended claims and its equivalency range.

Claims (10)

1. a kind of slicer, for being cut to the die cutting product being attached on feeding belt, the slicer includes cutting mould Block；It is characterized in that：The slicer also includes cutting the rotating mould that cuts angle of the module relative to feeding belt for adjustment Block and control module, the rotary module are included for cutting rotating seat that module is arranged at and for driving rotating seat to rotate And make to cut module relative to the feeding belt rotation of slice and then adjust the rotary power component for cutting angle for cutting module； The control module includes the identification of detection components and detection components described in analytical calculation that identification is scanned to feeding belt Result cutting angle and then controlling the rotary power component operation to determine to cut module relative to what is rotated needed for feeding belt Data processing unit.

2. slicer according to claim 1, it is characterised in that：The slicer is also included for transmitting the feeding belt Feeding module, the detection components are arranged at the top of feeding belt transmitting path in feeding module.

3. slicer according to claim 2, it is characterised in that：The feeding module includes the suction being connected with negative pressure device The feeding power packages of the drive roll rotation in attached plate, the transport roller pair passed through for feed material strip and the driving transport roller pair Part, offers on adsorption plate and adsorbs the negative pressure sucker that plate surface is steadily advanced for producing negative-pressure sucking to be attached at feeding belt, The detection components are by means of suspension beam located at the top of adsorption plate.

4. slicer according to claim 3, it is characterised in that：The detection components are that die cutting product edge is examined The color mark sensor of survey.

5. the slicer according to claim 3 or 4, it is characterised in that：The suspension beam is respectively arranged in suction including two The pedestal of the feeding belt travel path both sides of attached plate, the slide bar for being installed on pedestal and being axially parallel to feeding belt direct of travel with And two ends are respectively slidably assembled in the crossbeam on corresponding slide bar, the detection components are slidably installed on the crossbeam On.

6. slicer according to claim 1, it is characterised in that：The module that cuts includes the sanction being fixed on rotating seat Base is cut, is installed on and described cut on base and cooperate to cut upper cutter and the incision of the die cutting product on feeding belt Knife, driving upper cutter are cut between force piece and upper cutter with respect to cutting force piece and being connected to for lower cutter lifting moving Eccentric ratio component.

7. slicer according to claim 1, it is characterised in that：The rotary power component includes being fixed with rotating seat and connects The fixed seat and fixed seat for connecing are connected to drive the rotating shaft of fixed seat rotation, provide rotary power as rotating shaft by driving member Rotary power part.

8. slicer according to claim 7, it is characterised in that：The rotary power part is servomotor, the transmission Part is toothed belt transmission part.

9. slicer according to claim 1, it is characterised in that：The data processing unit is encoder for servo motor.

10. slicer according to claim 7, it is characterised in that：The fixed seat is provided with T-slot, the rotating seat The limited block corresponding with the T-slot is provided with, the locking corresponding with limited block of the T-slot after module is rotated in place is being cut And be relatively fixed the fixed seat and rotating seat.