CN216181042U - Card cutting device with linear forward feeding module - Google Patents

Abstract

The utility model provides a card cutting device with a linear forwarding module, which comprises: the punching device comprises a lifting feeding assembly, a feeding assembly and a punching assembly, wherein a material sucking device is arranged between the feeding assembly and the feeding assembly, the feeding assembly is provided with a feeding platform for bearing and conveying a material plate, and an adsorption deviation rectifying assembly is arranged on the feeding platform corresponding to the blanking position of the material sucking device; the bottom of the feeding platform is provided with a linear forward feeding module, the feeding platform is provided with a clamping groove, the linear forward feeding module is provided with a forward feeding sliding block which reciprocates between the feeding assembly and the punching assembly, the forward feeding sliding block is provided with a clamping assembly, and the clamping assembly clamps a corrected material plate at a position close to the adsorption correction assembly and sends the corrected material plate to the punching assembly; replace current double-deck relay formula straight line module through setting up magnetic suspension straight line pushing module, the effectual efficiency that improves the pay-off sets up simultaneously and adsorbs the subassembly of rectifying and go out the aerofoil and rectify before the flitch pay-off, avoids appearing cardboard and heavy board, and is high-efficient practical.

Description

Card cutting device with linear forward feeding module

Technical Field

The utility model relates to the technical field of machining, in particular to a card cutting device with a linear forwarding module.

Background

With the development of science and technology and service concepts, cards bearing various data or information are also greatly developed, such as IC cards, smart cards, shopping cards and the like, and the cards are formed by punching and processing a whole card board in which a plurality of unit cards are arranged by a punching die in the final forming process; such as business cards, playing cards and the like, the whole card is subjected to a plurality of processes of code spraying, line pressing and the like during processing, and then is punched and cut into small finished cards; it is necessary to die cut the individual pieces from a single sheet during the manufacturing process.

In the prior art, the punching processing of cards is usually continuous processing and forming, the loading usually adopts a clamping loading or adsorption loading mode, a material plate is taken from a material stack and then is directly sent to a feeding step for feeding and punching, the existing card processing machine usually adopts a double-layer relay type front feeding module for feeding and processing when processing and feeding, the efficiency of the feeding mode still needs to be improved, and meanwhile, because the processing rhythm is compact, the error of a heavy plate or a clamping plate easily occurs, the processing efficiency is seriously influenced, so a new processing device is urgently needed to solve the defects and deficiencies in the prior art.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides the card cutting device with the linear forward feeding module, the magnetic suspension linear forward pushing module is arranged to replace the existing double-layer relay type linear module, the feeding efficiency is effectively improved, meanwhile, the adsorption deviation rectifying assembly is arranged to rectify the deviation before the material plate is fed, the phenomenon of clamping plates and heavy plates is avoided, the air outlet plate can also avoid the occurrence of the heavy plates, and the card cutting device is efficient and practical.

To achieve the above object, the present invention provides a card cutting device with a linear forwarding module, comprising: the feeding assembly is arranged between the feeding assembly and the punching assembly and is used for connecting the feeding assembly with the punching assembly; a material suction device used for conveying the material plates from the feeding assembly to the feeding assembly is arranged between the feeding assembly and the feeding assembly, the feeding assembly is provided with a feeding platform used for bearing and conveying the material plates, and an adsorption deviation rectifying assembly is arranged on the feeding platform corresponding to the blanking position of the material suction device; the bottom of the feeding platform is provided with a linear forward feeding module, the feeding platform is provided with a clamping groove along the linear forward feeding module to the setting, the linear forward feeding module is provided with a forward feeding sliding block which reciprocates between the feeding assembly and the punching assembly, the forward feeding sliding block is provided with a clamping assembly, and the clamping assembly clamps a corrected material plate close to the position of the adsorption correction assembly and feeds the corrected material plate to the punching assembly.

Specifically, the method comprises the following steps: the linear front-feeding module comprises a magnetic suspension sliding rail, the front-feeding sliding block is a magnetic suspension sliding block, the clamping assembly comprises a clamping part, and the clamping part protrudes out of the feeding platform from the clamping groove.

Preferably, the method comprises the following steps: the clamping assembly further comprises an air cylinder, the clamping part comprises a fixed block and a rotating clamping block, the air cylinder is connected with the fixed clamping block, the output end of the air cylinder is connected with a rack, and a slot matched with the rack is formed in the fixed clamping block; a gear meshed with the rack is arranged in the slot; the tail end of the rotating clamping block is provided with a U-shaped frame; two arms of the U-shaped frame are fixedly connected through a fixing column; the fixing column penetrates through the fixing clamping block and is coaxially and fixedly connected with the gear.

Specifically, the method comprises the following steps: the adsorption deviation correcting assembly comprises a first deviation correcting device and a second deviation correcting device, the first deviation correcting device and the second deviation correcting device respectively comprise a linear guide rail controlled by a motor and a rotary shaft seat installed on a sliding block of the linear guide rail, the linear guide rail is arranged in parallel, and the rotary shaft seat is rotatably connected with a movable adsorption plate.

Specifically, the method comprises the following steps: the heavy truck detection device is arranged on the detection support and is arranged above the movable adsorption plate, the heavy truck detection device comprises an upper frame and a lower frame, the upper frame is fixedly arranged on the detection support, and the middle part of the lower frame is rotatably connected with the middle part of the upper frame through a rotating shaft to form a lever structure; the lower frame is provided with a detection roller at one end far away from the middle part, the other end is provided with a detection electric eye, and the upper frame is provided with a micrometer head at the position corresponding to the detection electric eye.

Preferably, the method comprises the following steps: the detection electric eye is a groove-shaped electric eye with an induction groove in the middle, and the micrometer head penetrates through the induction groove.

Specifically, the method comprises the following steps: the feeding platform of the feeding assembly is higher than the feeding assembly, an air outlet plate used for blowing the air and separating the plate is arranged at the connecting position of the feeding assembly and the feeding assembly, and the air outlet plate is arranged between the feeding assembly and the lifting position of the suction device.

Preferably, the method comprises the following steps: the air outlet plate is provided with a plurality of groups of air outlets arranged at intervals along the width direction, a brush wheel is arranged between each group of air outlets, and the brush wheels are arranged in a plurality and distributed at intervals along the width direction of the material plates.

Specifically, the method comprises the following steps: a material collecting component is arranged at the bottom of the punching component, a material collecting supporting strip and a material pushing rod are arranged under a discharge port of the punching component, and a material collecting belt is arranged at the discharge port of the material collecting component; the receiving supporting strips are provided with a plurality of stepped receiving grooves for receiving the cards, and the pushing rods are arranged between the receiving supporting strips and do pushing movement for pushing the cards to the receiving belts.

Preferably, the method comprises the following steps: the discharge gate of the subassembly that gathers materials is provided with the fender subassembly, and the fender subassembly includes and receives the card front bezel and hold in the palm the cardboard, holds in the palm the cardboard and is provided with two, and divide and locate discharge gate both sides bottom, receive the card front bezel and set up in the front end of discharge gate, hold in the palm the cardboard and do the concertina movement of relative discharge gate bottom.

The utility model has the beneficial effects that: compared with the prior art, the utility model provides a card cutting device with a linear forwarding module, which comprises: the feeding assembly is arranged between the feeding assembly and the punching assembly and is used for connecting the feeding assembly with the punching assembly; a material suction device used for conveying the material plates from the feeding assembly to the feeding assembly is arranged between the feeding assembly and the feeding assembly, the feeding assembly is provided with a feeding platform used for bearing and conveying the material plates, and an adsorption deviation rectifying assembly is arranged on the feeding platform corresponding to the blanking position of the material suction device; the bottom of the feeding platform is provided with a linear forward feeding module, the feeding platform is provided with a clamping groove arranged along the direction of the linear forward feeding module, the linear forward feeding module is provided with a forward feeding sliding block which reciprocates between the feeding assembly and the punching assembly, the forward feeding sliding block is provided with a clamping assembly, and the clamping assembly clamps a corrected material plate at a position close to the adsorption correction assembly and sends the corrected material plate to the punching assembly; replace current double-deck relay formula straight line module through setting up magnetic suspension straight line push-forward module, the effectual efficiency that improves the pay-off sets up simultaneously and adsorbs the subassembly of rectifying and rectify before the flitch pay-off and rectify, avoids appearing cardboard and heavy board, goes out the appearance that the flitch can avoid heavy board equally, and is high-efficient practical.

Drawings

FIG. 1 is a three-dimensional view of the present invention;

FIG. 2 is a schematic view of a feed assembly of the present invention;

FIG. 3 is a schematic view of a clamping assembly of the present invention;

FIG. 4 is a partial schematic view of an air outlet plate according to the present invention;

FIG. 5 is a schematic view of a punch assembly of the present invention;

FIG. 6 is an enlarged partial view of the aggregate component of the present invention;

FIG. 7 is a cross-sectional view of the interior of the aggregate assembly of the present invention;

FIG. 8 is a schematic view of an adsorption deviation correcting device according to the present invention;

fig. 9 is a schematic view of a heavy truck detection device according to the present invention.

The main element symbols are as follows:

1. lifting the feeding assembly;

2. a feeding assembly; 21. a feeding platform; 22. a linear forwarding module; 23. clamping grooves; 24. clamping the assembly; 241. a cylinder; 242. a rack; 243. a gear; 244. rotating the clamping block; 25. a forward slide block; 26. an air outlet plate; 261. an air outlet; 262. a brush wheel;

3. punching a component; 32. an aggregate assembly; 321. a front baffle plate for card collection; 322. supporting a clamping plate; 323. a material receiving belt; 324. a material pushing rod; 325. receiving and supporting strips;

4. a material suction device;

5. adsorbing a deviation rectifying component; 51. a first deviation correcting device; 52. a second deviation correcting device; 53. a linear guide rail; 54. a slider; 55. a rotary shaft seat; 56. a movable adsorption plate; 57. a heavy truck detection device; 571. putting on a shelf; 572. putting down a rack; 573. detecting the bracket; 574. detecting a roller; 575. detecting an electric eye; 576. dividing the head into thousands.

Detailed Description

In order to more clearly describe the present invention, the present invention will be further described with reference to the accompanying drawings.

The existing card processing machine generally adopts a double-layer relay type front feeding module to carry out feeding processing when processing and feeding, the efficiency of the feeding mode is still to be improved, and meanwhile, because the processing rhythm is compact, errors of a heavy plate or a clamping plate easily occur, the processing efficiency is seriously influenced, and a new processing device is urgently needed to solve the defects and shortcomings in the prior art.

To overcome the drawbacks and deficiencies of the prior art, the present invention provides a card cutting device with a linear feed module 22, as shown in fig. 1-9, comprising: the feeding assembly 2 is arranged between the feeding assembly and the punching assembly 3 and is used for connecting the feeding assembly with the punching assembly 3; a material suction device 4 used for conveying the material plates from the feeding assembly to the feeding assembly 2 is arranged between the feeding assembly and the feeding assembly 2, the feeding assembly 2 is provided with a feeding platform 21 used for receiving and conveying the material plates, and an adsorption deviation correcting assembly 5 is arranged on the feeding platform 21 and corresponds to the blanking position of the material suction device 4; the bottom of the feeding platform 21 is provided with a linear forward feeding module 22, the feeding platform 21 is provided with a clamping groove 23 arranged along the direction of the linear forward feeding module 22, the linear forward feeding module 22 is provided with a forward feeding slide block 25 reciprocating between the feeding component and the punching component 3, the forward feeding slide block 25 is provided with a clamping component 24, and the clamping component 24 clamps the corrected material plate at a position close to the adsorption deviation correcting component 5 and sends the material plate to the punching component 3; the feeding assembly receives the material plate stack of the feeding vehicle and then lifts and feeds the material, when the top material plate of the material plate stack is lifted to a feeding height, the material suction device 4 sucks the top material plate and conveys the top material plate to the feeding assembly 2, the adsorption deviation-rectifying assembly 5 of the feeding assembly 2 comprises a movable adsorption plate 56 separated from the feeding platform 21, a detection lens used for identifying and detecting the material plate is arranged above the adsorption deviation-rectifying assembly 5, and the adsorption deviation-rectifying assembly 5 receives a detection signal of the detection lens to control the movable adsorption plate 56 to swing and rectify deviation; after the deviation correction is finished, the clamping assembly 24 of the linear forward feeding module 22 protrudes from the clamping groove 23 and clamps and feeds the deviation-corrected material plate, and the forward feeding slide block 25 conveys the material plate to the punching assembly 3 for punching.

Example 1: the straight line module comprises an upper straight line module and a lower straight line module, the upper straight line module is arranged above the lower straight line module and is arranged in front of the lower straight line module in a staggered mode to form a relay-type double-layer straight line module, the upper straight line module is provided with a first clamping component 24, the lower straight line module is provided with a second clamping component 24, the first clamping component 24 is used for clamping the flitch for the first time and completing feeding of the first half stroke, and the second clamping component 24 is used for bearing the flitch at the tail end of the upper straight line module and is responsible for transferring to the punching component 3 for punching.

Example 2: the linear module is a single linear module, a magnetic suspension linear module is adopted, the magnetic suspension sliding block 54 is provided with the clamping assembly 24, and the clamping assembly 24 receives a material plate subjected to deviation correction at the end 5 of the adsorption deviation correction assembly for clamping and then transports the material plate to the punching assembly 3 for punching.

In the present embodiment, mention is made of: the linear forward feeding module 22 comprises a magnetic suspension sliding rail, the forward feeding sliding block 25 is a magnetic suspension sliding block 54, the clamping assembly 24 comprises a clamping part, and the clamping part protrudes out of the feeding platform 21 from the clamping groove; adopt the monorail material feeding straight line of magnetic suspension to send module 22 forward, the magnetic suspension does not have direct contact because between track and the slider 54, does not produce frictional force, so can carry out quick back and forth movement pay-off, send the module and send the motion efficiency of module before the double-deck in comparison with current lead screw to have very high improvement, can effectual reduction power consumption simultaneously.

In a preferred embodiment, mention is made of: the clamping assembly 24 further comprises an air cylinder 241, the clamping part comprises a fixed block and a rotating clamping block 244, the air cylinder 241 is connected with the fixed clamping block, the output end of the air cylinder 241 is connected with a rack 242, and the fixed clamping block is provided with a slot matched with the rack 242; a gear 243 meshed with the rack 242 is arranged in the groove; the tail end of the rotating clamping block 244 is provided with a U-shaped frame; two arms of the U-shaped frame are fixedly connected through a fixing column; the fixing column penetrates through the fixing clamp block and is coaxially and fixedly connected with the gear 243; the cylinder 241 is used for controlling the movement of the rack 242, and due to the meshing of the rack 242 and the gear 243, the rack 242 drives the gear 243 to rotate so as to drive the U-shaped frame to rotate, and the flitch can be clamped through the rotation of the U-shaped frame.

In the present embodiment, mention is made of: the adsorption deviation correcting assembly 5 comprises a first deviation correcting device 51 and a second deviation correcting device 52, the first deviation correcting device 51 and the second deviation correcting device 52 both comprise a linear guide rail 53 controlled by a motor and a rotary shaft seat 55 arranged on a slide block 54 of the linear guide rail 53, the linear guide rail 53 is arranged in parallel, and the rotary shaft seat 55 is rotatably connected with a movable adsorption plate 56; the feeding platform 21 receives the card processing raw material clamping plate from the previous step, and the clamping plate is used for adsorption and fixation, at the moment, the detection lens starts to work, and mainly shoots a MARK point to judge whether the clamping plate is aligned or not and whether the clamping plate is inclined or not, because the position and the alignment of the clamping plate have great influence on the accuracy and the efficiency of processing in subsequent processing, when the clamping plate is found not to be aligned and cleaning is generated, the motor of the first deviation correcting device 51 or the second deviation correcting device 52 can control the linear guide rail 53 to move and control the sliding rail to slide; when the sliding rails of the first deviation correcting device 51 and the second deviation correcting device 52 slide simultaneously, the adjustment of the position can be performed when the sliding rail of only one deviation correcting device slides, and since the adsorption device and the sliding rail are connected in rotation through the rotary shaft seat 55 and the rotating shaft, the linear motion can be converted into the rotation motion of the rotating shaft, so that the function of rotating the angle of the adsorption device is realized, and the correction can be performed on the deviation angle of the paperboard.

In the present embodiment, mention is made of: the heavy card detection device 57 is used for detecting a heavy card, the heavy card detection device 57 is mounted on the detection bracket 573 and is arranged above the movable adsorption plate 56, the heavy card detection device 57 comprises an upper frame 571 and a lower frame 572, the upper frame 571 is fixedly mounted on the detection bracket 573, and the middle part of the lower frame 572 is rotatably connected with the middle part of the upper frame 571 through a rotating shaft to form a lever structure; one end of the lower frame 572 far from the middle part is provided with a detection roller 574, the other end is provided with a detection electric eye 575, and the upper frame 571 is provided with a dividing head 576 corresponding to the detection electric eye 575; the heavy card detection device 57 is arranged for detecting the number of the material plates entering the position at a time, and because the thickness of a single material plate is fixed, when the number of the material plates changes, the number of the material plates can be identified by detecting the thickness of the material plates, and errors can exist in the thicknesses of different surfaces of the single material plate, so that the arrangement of the parallel heavy card detection devices 57 can effectively avoid the errors, accurately identify whether the sent material plates are single plates or not, and send out an alarm signal when the thickness of the sent material plates is not the single plate thickness; when the flitch is sent in to upper bracket 571 and lower bracket 572 that form lever structure, the flitch is sent in from detection gyro wheel 574 one end, and the thickness of flitch itself can make the gyro wheel end lifting of lower bracket 572, then because lever structure can lead to being equipped with the other end that detects electric eye 575 to sink, then form difference in height or the change of difference in position, the precision of this moment divide head 576 is very high, can reach the error detection of silk rank, the change of discerning difference in height when the electric eye then can send alarm signal.

In a preferred embodiment, mention is made of: the detection electric eye 575 is a groove-shaped electric eye with an induction groove in the middle, and the micrometer head 576 penetrates through the induction groove; the cell type electric eye can wrap up the subdivision head 576 and carry out omnidirectional detection, avoids appearing detection error.

In the present embodiment, mention is made of: the height of a feeding platform 21 of the feeding assembly 2 is higher than that of the feeding assembly, an air outlet plate 26 for air blowing plate separation is arranged at the joint position of the feeding assembly 2 and the feeding assembly, and the air outlet plate 26 is arranged between the feeding assembly and the lifting position of the material suction device 4; the air outlet plate 26 is provided with a plurality of groups of air outlets 261 arranged at intervals along the width direction, and a brush wheel 262 is arranged between each group of air outlets 261; after the material taking assembly lifts the material plates to the designated height, the material taking assembly stops for a short time, preferably 1S-2S, and in the stopping time, the air outlet plate 26 blows air from the middle of the material plates so as to separate the material plates to be taken from the material pile, so that the problem that subsequent feeding is influenced due to adhesion among the material plates caused by static electricity or other reasons can be effectively avoided, and single feeding is guaranteed; the flitch can be guaranteed to blow by multiunit play wind position and a plurality of exhaust vent, avoids blowing inhomogeneous or wind-force not enough.

In a preferred embodiment, mention is made of: the air outlet plate 26 is provided with a plurality of groups of air outlets 261 which are arranged at intervals along the width direction, a plurality of brush wheels 262 are arranged between each group of air outlets 261, and the plurality of brush wheels 262 are distributed at intervals along the width direction of the material plate; the brush wheel 262 can lift the material plate to avoid the material plate tearing when the air outlet of the air outlet plate 26 blows air.

In the present embodiment, mention is made of: the bottom of the punching component 3 is provided with a material collecting component 32, a material collecting supporting strip 325 and a material pushing rod 324 are arranged under the material collecting component 32 which is positioned at the discharge port of the punching component 3, and a material collecting belt 323 is arranged at the discharge port of the material collecting component 32; the receiving supporting bars 325 are provided with a plurality of stepped receiving grooves for receiving the cards, and the pushing rods 324 are arranged between the receiving supporting bars 325 and perform pushing motion for pushing the cards to the receiving belt 323; the punched cards can fall on each stepped receiving groove of the receiving supporting strip 325 and are arranged in order, and after a complete card board is completely processed, the pushing rod 324 pushes forwards from the rear part far away from the discharge hole through the receiving supporting strip 325, collects the card boards one by one and sends the card boards to the receiving belt 323 of the discharge hole, so that the card boards are sent to the next processing procedure.

In a preferred embodiment, mention is made of: a material blocking assembly is arranged at a discharge port of the material collecting assembly 32 and comprises two card collecting front baffles 321 and two card supporting plates 322, the two card supporting plates 322 are respectively arranged at the bottom ends of two sides of the discharge port, the card collecting front baffles 321 are arranged at the front end of the discharge port, and the card supporting plates 322 do telescopic motion relative to the bottom ends of the discharge port; the material blocking assembly is mainly used for blocking the material pushing rod 324 when the material pushing rod 324 returns, so that the material pushing rod 324 is prevented from sliding out; the supporting clamping plate 322 is in an extending state when the pushing rod 324 pushes the card out, the lower end of the discharge hole is blocked for temporary stacking, and when the card is in place, the supporting clamping plate 322 shrinks and enables the card to fall to the material receiving belt 323; an air cylinder 241 mounting plate is respectively mounted on two sides of the discharge port, a telescopic air cylinder 241 is respectively mounted on the air cylinder 241 mounting plate, and the telescopic air cylinder 24162 is connected with the output ends of the supporting clamp plate 322 and the telescopic air cylinder 24162 and used for controlling the telescopic motion of the supporting clamp plate 322.

The utility model has the advantages that:

replace current double-deck relay formula straight line module through setting up magnetic suspension straight line push-forward module, the effectual efficiency that improves the pay-off sets up simultaneously and adsorbs the subassembly of rectifying and rectify before the flitch pay-off and rectify, avoids appearing cardboard and heavy board, goes out the appearance that the flitch can avoid heavy board equally, and is high-efficient practical.

The above disclosure is only for a few specific embodiments of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present invention.

Claims (10)

1. The utility model provides a card cutting device with straight line module that forwards which characterized in that includes: the feeding assembly is arranged between the feeding assembly and the punching assembly and is used for connecting the feeding assembly with the punching assembly; a material suction device used for conveying the material plates from the feeding assembly to the feeding assembly is arranged between the feeding assembly and the feeding assembly, the feeding assembly is provided with a feeding platform used for bearing and conveying the material plates, and an adsorption deviation rectifying assembly is arranged on the feeding platform corresponding to the blanking position of the material suction device; the bottom of the feeding platform is provided with a linear forward feeding module, the feeding platform is provided with a clamping groove along the linear forward feeding module to the setting, the linear forward feeding module is provided with a forward feeding sliding block which reciprocates between the feeding assembly and the punching assembly, the forward feeding sliding block is provided with a clamping assembly, and the clamping assembly clamps a corrected material plate close to the position of the adsorption correction assembly and feeds the corrected material plate to the punching assembly.

2. The card cutting device with the linear advancement module as recited in claim 1, wherein the linear advancement module comprises a magnetic levitation slide rail, the advancement slide block is a magnetic levitation slide block, and the clamping assembly comprises a clamping portion protruding from the clamping groove to the feeding platform.

3. The card cutting device with the linear forwarding module of claim 2, wherein the clamping assembly further comprises an air cylinder, the clamping portion comprises a fixed block and a rotating clamping block, the air cylinder is connected with the fixed clamping block, the output end of the air cylinder is connected with a rack, and a slot matched with the rack is formed in the fixed clamping block; a gear meshed with the rack is arranged in the slot; the tail end of the rotating clamping block is provided with a U-shaped frame; two arms of the U-shaped frame are fixedly connected through a fixing column; the fixing column penetrates through the fixing clamping block and is coaxially and fixedly connected with the gear.

4. The card cutting device with the linear forwarding module of claim 1, wherein the adsorption deviation-correcting assembly comprises a first deviation-correcting device and a second deviation-correcting device, the first deviation-correcting device and the second deviation-correcting device each comprise a linear guide controlled by a motor and a rotary shaft seat mounted on a slide block of the linear guide, the linear guide is arranged in parallel, and the rotary shaft seat is rotatably connected with a movable adsorption plate.

5. The card cutting device with the linear forwarding module of claim 1, further comprising a heavy card detection device for detecting a heavy card, wherein the heavy card detection device is mounted on the detection bracket and is arranged above the movable adsorption plate, the heavy card detection device comprises an upper frame and a lower frame, the upper frame is fixedly mounted on the detection bracket, and the middle part of the lower frame is rotatably connected with the middle part of the upper frame through a rotating shaft to form a lever structure; the lower frame is provided with a detection roller at one end far away from the middle part, the other end is provided with a detection electric eye, and the upper frame is provided with a micrometer head at the position corresponding to the detection electric eye.

6. The card cutting device with the linear forwarding module of claim 5, wherein the detecting electric eye is a groove-shaped electric eye with a sensing groove in the middle, and the micrometer head penetrates through the sensing groove.

7. The card cutting device with the linear forwarding module as claimed in claim 1, wherein the feeding platform of the feeding assembly is higher than the feeding assembly, an air outlet plate for blowing the air to separate the plates is arranged at the connecting position of the feeding assembly and the feeding assembly, and the air outlet plate is arranged between the feeding assembly and the lifting position of the suction device.

8. The card cutting device with the linear forwarding module of claim 7, wherein the air outlet plate has a plurality of sets of air outlets spaced apart along the width direction, and a plurality of brush wheels are disposed between each set of air outlets and spaced apart along the width direction of the material plate.

9. The card cutting device with the linear forwarding module of claim 1, wherein the bottom of the punching component is provided with a material collecting component, the material collecting component is provided with a material collecting supporting strip and a material pushing rod under the discharge port of the punching component, and the discharge port of the material collecting component is provided with a material collecting belt; the receiving supporting strips are provided with a plurality of stepped receiving grooves for receiving the cards, and the pushing rods are arranged between the receiving supporting strips and do pushing movement for pushing the cards to the receiving belts.

10. The card cutting device with the linear forwarding module of claim 9, wherein the material outlet of the material collecting assembly is provided with a material blocking assembly, the material blocking assembly comprises two card collecting front baffles and two card supporting plates, the two card supporting plates are respectively arranged at the bottom ends of two sides of the material outlet, the card collecting front baffles are arranged at the front end of the material outlet, and the card supporting plates do telescopic motion relative to the bottom end of the material outlet.

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