CN215790384U - Digital die cutting and circular knife die cutting integrated machine - Google Patents
Digital die cutting and circular knife die cutting integrated machine Download PDFInfo
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- CN215790384U CN215790384U CN202121386426.7U CN202121386426U CN215790384U CN 215790384 U CN215790384 U CN 215790384U CN 202121386426 U CN202121386426 U CN 202121386426U CN 215790384 U CN215790384 U CN 215790384U
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Abstract
The utility model belongs to the technical field of die cutting equipment, and particularly relates to a digital die cutting and circular knife die cutting integrated machine which is characterized by comprising a digital die cutting mechanism, a circular knife die cutting mechanism and a rack, wherein the digital die cutting mechanism and the circular knife die cutting mechanism are fixedly arranged on the rack, the digital die cutting mechanism is mutually connected with the circular knife die cutting mechanism, and a die cutting path for performing digital die cutting and circular knife die cutting on coiled materials is formed from the digital die cutting mechanism to the circular knife die cutting mechanism. In this all-in-one, integrated two kinds of cross cutting modes of digital cross cutting and circular knife cross cutting, when the material passes through the cross cutting route, can select the cross cutting mode according to the demand, both can use two kinds of cross cutting modes of digital cross cutting and circular knife cross cutting to process simultaneously, also can select this kind of cross cutting mode of digital cross cutting or circular knife cross cutting to process according to the demand, for two independent digital cross cutting machines and circular knife cross cutting machine, area is littleer, and the cost is also lower.
Description
Technical Field
The utility model belongs to the technical field of die cutting equipment, and particularly relates to a digital die cutting and circular knife die cutting integrated machine.
Background
The die cutting machine is called as a beer machine, a cutting machine and a numerical control punching machine, and is mainly used for die cutting (full break and half break), indentation and gold stamping operation, fitting and automatic waste discharge of corresponding nonmetal coil stocks, non-setting adhesives, EVA (ethylene vinyl acetate), double-sided adhesive, electronics, mobile phone rubber mats and the like; the traditional die cutting machine utilizes a steel knife, a hardware die and a steel wire (or a template carved by a steel plate) to apply certain pressure through a printing plate, and a printed product or a paperboard is rolled and cut into a certain shape. Is an important device for processing and forming the packages after printing.
With the progress of science and technology, die-cutting machines are more and more in variety; the digital die-cutting machine (patent application No. CN201821943399.7) comprises a paper feeding mechanism, a paper conveying platform, a photographic positioning device, an air suction drawing gauge mechanism, a front gauge positioning mechanism, a belt paper holding mechanism, a die-cutting unit, a paper collecting mechanism, a machine frame and a PLC system; the paper feeding mechanism, the paper conveying platform, the air suction pull gauge mechanism, the front gauge positioning mechanism, the belt paper holding mechanism, the die cutting unit and the paper collecting mechanism are sequentially arranged on the frame along the paper feeding direction, and the photographic positioning device is arranged above the air suction pull gauge mechanism; the belt paper holding mechanism is in butt joint with the air suction pull gauge mechanism, and the paper is taken into the die cutting unit through the belt paper holding mechanism; the paper delivery mechanism is arranged in front of the die cutting unit. The utility model provides a rotary circular knife die-cutting mechanism (patent application No. CN202021011379.3), includes the base, the both sides of base top are all fixedly connected with the fixed plate, two the relative one side of fixed plate all rotates and is connected with the drive wheel, the side surface swing joint of two the drive wheel has the conveyer belt, the top of two the fixed plate all is fixedly connected with the riser, the top of two the riser all activity is pegged graft and is had the kelly. The digital die-cutting machine and the circular knife die-cutting mechanism can be used for digital die cutting and circular knife die cutting respectively, but when a user needs to use the two die-cutting modes of digital die cutting and circular knife die cutting simultaneously to process, the digital die-cutting machine and the circular knife die-cutting mechanism need to be simultaneously provided to realize, but the two mutually independent die-cutting devices undoubtedly occupy a large amount of area, and the cost is relatively higher.
Disclosure of Invention
In order to solve the above problems, a primary object of the present invention is to provide an all-in-one machine for digital die cutting and circular knife die cutting, which integrates two die cutting manners of digital die cutting and circular knife die cutting, so that the all-in-one machine can be processed by using the two die cutting manners of digital die cutting and circular knife die cutting, and can also be processed by selecting one die cutting manner of digital die cutting or circular knife die cutting according to requirements.
The utility model also aims to provide the digital die-cutting and circular knife die-cutting integrated machine, which can ensure that the coiled material still can achieve the physical balance function in a working area under the frequent forward and reverse rotation actions of the coiled material, keep the total length of the coiled material equal, and automatically adjust the tension of the coiled material to meet the processing requirements without arranging a spring or providing additional power by a vacuum adsorption structure.
In order to achieve the above object, the present invention has the following technical means.
The utility model provides a digital cross cutting, circular knife cross cutting all-in-one, its characterized in that, this all-in-one is including digital die-cutting mechanism, circular knife die-cutting mechanism and frame, digital die-cutting mechanism and circular knife die-cutting mechanism all fix and set up in the frame, digital die-cutting mechanism links up with circular knife die-cutting mechanism each other, and digital die-cutting mechanism to circular knife die-cutting mechanism be formed with and be used for carrying out digital cross cutting, circular knife cross cutting's cross cutting route to coil stock. The die cutting path is a working area for processing the coil stock. In this all-in-one, integrated two kinds of cross cutting modes of digital cross cutting and circular knife cross cutting, when the material passes through the cross cutting route, can select the cross cutting mode according to the demand, both can use two kinds of cross cutting modes of digital cross cutting and circular knife cross cutting to process simultaneously, also can select this kind of cross cutting mode of digital cross cutting or circular knife cross cutting to process according to the demand, for two independent digital cross cutting machines and circular knife cross cutting machine, area is littleer, and the cost is also lower. The digital die cutting mechanism is a structure for realizing digital die cutting, the realization mode is the prior art, and the working principle is the same as that of the existing digital die cutting machine. The circular knife die cutting mechanism is a structure for realizing circular knife die cutting, the realization mode can be the prior art, and the working principle can be the same as that of the existing circular knife die cutting machine.
Furthermore, the integrated machine further comprises a self-balancing mechanism for controlling the length of the coiled material in the die cutting path, the self-balancing mechanism is arranged on the frame, and the digital die cutting mechanism and the circular knife die cutting mechanism are both connected with the self-balancing mechanism. Specifically, when being processed, the coil stock sequentially passes through one side of the self-balancing mechanism, the digital die-cutting mechanism, the circular cutter die-cutting mechanism and the other side of the self-balancing mechanism.
Further, the self-balancing mechanism comprises a raw material side driving roller, a finished product side driving roller, a balancing guide rail, a balancing slide block, a first balancing guide roller, a second balancing guide roller, a speed sensor and a plurality of adjusting guide rollers, wherein the adjusting guide rollers are used for guiding a transmission path of a coil stock in the self-balancing mechanism;
the coil stock is guided by the adjusting guide roller and sequentially passes through the first balance guide roller, the raw material side driving roller, the digital die cutting mechanism, the circular knife die cutting mechanism, the finished product side driving roller and the second balance guide roller. In the present application, the Y-axis direction is defined as the transport direction of the coil stock, the X-axis direction is perpendicular to the Y-axis direction in the horizontal plane, and the Z-axis direction is perpendicular to the Y-axis direction in the vertical plane. The all-in-one machine also comprises an external control center for controlling the operation of the whole all-in-one machine, which belongs to the prior art and does not belong to the improvement point of the utility model, and the detailed description is not provided. The raw material side driving roller and the finished product side driving roller are matched for use, the coil stock is pulled in a forward rotation mode and pulled back in a reverse rotation mode, the coil stock is stopped at a position with a process requirement, and the digital die cutting mechanism and/or the circular knife die cutting mechanism can conveniently process and operate the coil stock. In the self-balancing mechanism, when the raw material side driving roll and the finished product side driving roll are matched for forward rotation and pulling, the balance slide block can move towards the left side on the balance guide rail, otherwise, the raw material side driving roll and the finished product side driving roll are matched for reverse rotation and pulling, the balance slide block can move towards the right side on the balance guide rail, the coil stock performs differential compensation movement, the length of the coil stock in the raw material side balance area and the finished product side balance area is always equal to the total length of the coil stock in the self-balancing mechanism, and meanwhile, the tension of the coil stock is kept in a constant state.
Further, the adjusting guide rollers comprise a first guide roller, a second guide roller, a third guide roller and a fourth guide roller, the first guide roller and the second guide roller are arranged on the left side of the balance guide rail, the third guide roller and the fourth guide roller are arranged on the right side of the balance guide rail, and the first guide roller and the fourth guide roller are arranged below the balance guide rail;
the coil stock passes through first deflector roll, first balanced deflector roll and second deflector roll in proper order and forms first raw materials side equilibrium area, and the coil stock after the processing passes through third deflector roll, second balanced deflector roll and fourth deflector roll in proper order and forms first finished product side equilibrium area, and the coil stock route of first raw materials side equilibrium area and first finished product side equilibrium area sets up along Y axle direction parallel.
Further, the self-balancing mechanism further comprises a third balancing guide roller, a fourth balancing guide roller, a fifth balancing guide roller, a sixth balancing guide roller, a fifth guide roller, a sixth guide roller, a seventh guide roller and an eighth guide roller, the third balancing guide roller, the fourth balancing guide roller, the fifth balancing guide roller and the sixth balancing guide roller are all fixedly arranged on the balancing slide block, the fifth guide roller and the seventh guide roller are all arranged on the left side of the balancing slide rail, and the sixth guide roller and the eighth guide roller are arranged on the right side of the balancing slide rail;
the coil stock after processing passes through the first guide roller, the first balance guide roller, the fifth guide roller, the third balance guide roller, the seventh guide roller, the fifth balance guide roller and the second guide roller in sequence to form a second raw material side balance area, the coil stock after processing passes through the third guide roller, the sixth balance guide roller, the eighth guide roller, the fourth balance guide roller, the sixth guide roller, the second balance guide roller and the fourth guide roller in sequence to form a second finished product side balance area, and coil stock paths of the second raw material side balance area and the second finished product side balance area are arranged in parallel along the Y-axis direction. The cooperation of six balanced deflector rolls and eight deflector rolls, when self-balancing mechanism during operation, the working effect is better.
Further, the surfaces of the raw material side driving roller and the finished product side driving roller are subjected to sand blasting treatment, the left side and the upper side of the raw material side driving roller are provided with a material pressing rubber roller and a rubber roller cylinder, the right side and the upper side of the finished product side driving roller are provided with a material pressing rubber roller and a rubber roller cylinder, the peripheral surface of the raw material side driving roller or the finished product side driving roller is in contact with the peripheral surface of the corresponding material pressing rubber roller, the material pressing rubber roller is in driving connection with the rubber roller cylinder, and the rubber roller cylinder controls the material pressing rubber roller to perform material pressing operation on a coil material. The surfaces of the raw material side driving roller and the finished product side driving roller are subjected to sand blasting treatment, so that the friction coefficient of a coil material and the roller surface can be increased, and any slipping phenomenon can be effectively avoided; by means of the arrangement of the rubber roller cylinder, whether the coil stock is pressed or not can be functionally selected. And the material pressing rubber rollers are arranged on the upper side and the side of the raw material side driving roller and the finished product side driving roller, so that the material pressing of the coiled material is facilitated.
Further, the speed sensor comprises an acceleration sensor and a deceleration sensor, and the acceleration sensor and the deceleration sensor are respectively arranged at the left end and the right end of the balance slide block. In practical application, the acceleration sensor and the deceleration sensor are both connected with an external control center of the device, when the acceleration sensor and the deceleration sensor both have signals, the control center can judge that the left and right lengths of the coil stock of the raw material side balance area (namely, the first raw material side balance area or the second raw material side balance area) and the coil stock of the finished product side balance area (namely, the first finished product side balance area or the second finished product side balance area) are nearly balanced; when the coil stock in the raw material side balancing area is less than that in the finished product side balancing area, the balancing slide block can deviate towards the left side, so that the deceleration sensor is in an OFF state, the acceleration sensor is in an ON state, and the control center can accelerate the feeding speed of the raw material side driving roller and the finished product side driving roller; ON the contrary, if the balance slide block deviates to the right side, the acceleration sensor is in an OFF state, the deceleration sensor is in an ON state, namely the balance area ON the raw material side is more than the balance area ON the finished product side, and the control center can slow down the feeding speed of the driving roller ON the raw material side and the driving roller ON the finished product side. In the utility model, the principle of realizing the self-balancing mechanism is the same as that of the unpowered self-balancing coil processing device with the patent number of CN201921653109. X.
Further, the circular knife die cutting mechanism comprises a knife roller driving motor, a knife roller, a bottom roller and a cushion roller, wherein the knife roller, the bottom roller and the cushion roller are sequentially arranged on the rack from top to bottom, and a gap for processing coiled materials is formed between the knife roller and the bottom roller; the knife roll driving motor is fixed on the rack, and an output shaft of the knife roll driving motor is fixedly connected with the knife roll so as to drive the knife roll to rotate and work. When the coil stock is processed on the circular cutter die-cutting mechanism, the coil stock passes through a gap between the knife roll and the bottom roll and is processed under the action of the knife roll and the bottom roll.
The utility model has the beneficial effects that: compared with the prior art, the digital die cutting and circular knife die cutting are integrated, when materials pass through a die cutting path, the die cutting mode can be selected according to requirements, the digital die cutting and circular knife die cutting can be used for processing at the same time, the digital die cutting or circular knife die cutting can be selected according to requirements for processing, and compared with two independent digital die cutting machines and circular knife die cutting machines, the digital die cutting machine and circular knife die cutting machine has the advantages that the occupied area is smaller, and the cost is lower. The digital die cutting mechanism is a structure for realizing digital die cutting, the realization mode is the prior art, and the working principle is the same as that of the existing digital die cutting machine. The circular knife die cutting mechanism is a structure for realizing circular knife die cutting, the realization mode can be the prior art, and the working principle can be the same as that of the existing circular knife die cutting machine.
Drawings
Fig. 1 is a schematic structural view of the present invention.
Fig. 2 is a schematic structural diagram of the present invention with a part of the rack hidden.
FIG. 3 is a schematic diagram of the present invention showing the configuration of the roll material with a portion of the frame hidden.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.
The utility model provides a digital cross cutting, circular knife cross cutting all-in-one, its characterized in that, this all-in-one is including digital die-cutting mechanism 1, circular knife die-cutting mechanism 2 and frame 3, digital die-cutting mechanism 1 and circular knife die-cutting mechanism 2 are all fixed to be set up in frame 3, digital die-cutting mechanism 1 links up each other with circular knife die-cutting mechanism 2, and digital die-cutting mechanism 1 to circular knife die-cutting mechanism 2 are formed with the cross cutting route that is used for carrying out digital cross cutting, circular knife cross cutting to the coil stock. The die cutting path is the working area for processing the coil stock 4.
Further, the all-in-one machine further comprises a self-balancing mechanism 5 for controlling the length of the coil stock 4 in the die cutting path, the self-balancing mechanism 5 is arranged on the frame 3, and the digital die-cutting mechanism 1 and the circular knife die-cutting mechanism 2 are connected with the self-balancing mechanism 5. Specifically, when being processed, the coil stock 4 sequentially passes through one side of the self-balancing mechanism 5, the digital die-cutting mechanism 1, the circular knife die-cutting mechanism 2 and the other side of the self-balancing mechanism 5.
Further, the self-balancing mechanism 5 comprises a raw material side driving roller 51, a finished product side driving roller 52, a balancing guide rail 53 and a balancing slide block 54, the automatic coil cutting machine comprises a first balance guide roller 55, a second balance guide roller 56, a speed sensor and a plurality of adjusting guide rollers 57, wherein the adjusting guide rollers 57 are used for guiding a transmission path of a coil stock 4 in a self-balancing mechanism 5, a raw material side driving roller 51 is connected with the left side of a digital die-cutting mechanism 1, a finished product side driving roller 52 is connected with the right side of a circular knife die-cutting mechanism 2, a balance guide rail 53 is horizontally arranged along the Y-axis direction, a balance slide block 54 is arranged on the balance slide rail 53 and movably connected with the balance slide rail 53, the speed sensor is arranged on the balance slide block 54, the first balance guide roller 55 and the second balance guide roller 56 are both fixedly connected with the balance slide block 54, and the balance slide block 54 drives the first balance guide roller 55 and the second balance guide roller 56 to synchronously slide on the balance slide rail 53;
the coil stock 4 is guided by the adjusting guide roller 57 and passes through the first balance guide roller 55, the raw material side driving roller 51, the digital die cutting mechanism 1, the circular knife die cutting mechanism 2, the finished product side driving roller 52 and the second balance guide roller 56 in sequence.
Further, the adjusting guide rollers 57 include a first guide roller 571, a second guide roller 572, a third guide roller 573 and a fourth guide roller 574, the first guide roller 571 and the second guide roller 572 are disposed at the left side of the balance guide rail 53, the third guide roller 573 and the fourth guide roller 574 are disposed at the right side of the balance guide rail 53, and the first guide roller 571 and the fourth guide roller 574 are disposed below the balance guide rail 53;
the self-balancing mechanism 5 further comprises a third balancing guide roller 551, a fourth balancing guide roller 561, a fifth balancing guide roller 552, a sixth balancing guide roller 562, a fifth guide roller 575, a sixth guide roller 576, a seventh guide roller 577 and an eighth guide roller 578, the third balancing guide roller 551, the fourth balancing guide roller 561, the fifth balancing guide roller 552 and the sixth balancing guide roller 562 are all fixedly arranged on the balancing slider 54, the fifth guide roller 575 and the seventh guide roller 577 are all arranged on the left side of the balancing slide rail 53, and the sixth guide roller 576 and the eighth guide roller 578 are arranged on the right side of the balancing slide rail 53;
the coil stock 4 before being processed sequentially passes through a first guide roller 571, a first balance guide roller 55, a fifth guide roller 575, a third balance guide roller 551, a seventh guide roller 577, a fifth balance guide roller 552 and a second guide roller 571 to form a second stock side balance area, the coil stock 4 after being processed sequentially passes through a third guide roller 573, a sixth balance guide roller 562, an eighth guide roller 578, a fourth balance guide roller 561, a sixth guide roller 576, a second balance guide roller 56 and a fourth guide roller 574 to form a second finished product side balance area, and the coil stock paths of the second stock side balance area and the second finished product side balance area are arranged in parallel along the Y-axis direction.
Further, the surfaces of the raw material side driving roller 51 and the finished product side driving roller 52 are subjected to sand blasting, the left side and the upper side of the raw material side driving roller 51 are provided with a material pressing rubber roller 511 and a rubber roller cylinder 512, the right side and the upper side of the finished product side driving roller 52 are also provided with a material pressing rubber roller 511 and a rubber roller cylinder 512, the circumferential surface of the raw material side driving roller 51 or the finished product side driving roller 52 is in contact with the circumferential surface of the corresponding material pressing rubber roller 511, the material pressing rubber roller 511 is in driving connection with the rubber roller cylinder 512, and the rubber roller cylinder 512 controls whether the material pressing rubber roller 511 performs material pressing operation on the coil stock 4.
Further, the speed sensor includes an acceleration sensor and a deceleration sensor, which are respectively disposed at the left and right ends of the balancing slider 54.
Further, the circular knife die cutting mechanism 2 comprises a knife roller driving motor, a knife roller 22, a bottom roller 23 and a cushion roller 21, the knife roller 22, the bottom roller 23 and the cushion roller 21 are sequentially arranged on the rack 3 from top to bottom, and a gap for processing the coil stock 4 is formed between the knife roller 22 and the bottom roller 23; the knife roll driving motor is fixed on the frame 3, and an output shaft of the knife roll driving motor is fixedly connected with the knife roll 22 so as to drive the knife roll 22 to rotate and work.
The utility model has the beneficial effects that: compared with the prior art, the digital die cutting and circular knife die cutting are integrated, when materials pass through a die cutting path, the die cutting mode can be selected according to requirements, the digital die cutting and circular knife die cutting can be used for processing at the same time, the digital die cutting or circular knife die cutting can be selected according to requirements for processing, and compared with two independent digital die cutting machines and circular knife die cutting machines, the digital die cutting machine and circular knife die cutting machine has the advantages that the occupied area is smaller, and the cost is lower. The digital die cutting mechanism is a structure for realizing digital die cutting, the realization mode is the prior art, and the working principle is the same as that of the existing digital die cutting machine. The circular knife die cutting mechanism is a structure for realizing circular knife die cutting, the realization mode can be the prior art, and the working principle can be the same as that of the existing circular knife die cutting machine.
The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (8)
1. The utility model provides a digital cross cutting, circular knife cross cutting all-in-one, its characterized in that, this all-in-one is including digital die-cutting mechanism, circular knife die-cutting mechanism and frame, digital die-cutting mechanism and circular knife die-cutting mechanism all fix and set up in the frame, digital die-cutting mechanism links up with circular knife die-cutting mechanism each other, and digital die-cutting mechanism to circular knife die-cutting mechanism be formed with and be used for carrying out digital cross cutting, circular knife cross cutting's cross cutting route to coil stock.
2. The integrated digital die-cutting and circular knife die-cutting machine as claimed in claim 1, further comprising a self-balancing mechanism for controlling the length of the coil material in the die-cutting path, wherein the self-balancing mechanism is disposed on the frame, and the digital die-cutting mechanism and the circular knife die-cutting mechanism are both engaged with the self-balancing mechanism; when the coil stock is processed, the coil stock sequentially passes through one side of the self-balancing mechanism, the digital die-cutting mechanism, the circular cutter die-cutting mechanism and the other side of the self-balancing mechanism.
3. The integrated digital die-cutting, circular knife die-cutting machine as claimed in claim 2, the self-balancing mechanism comprises a raw material side driving roller, a finished product side driving roller, a balancing guide rail, a balancing slide block, a first balancing guide roller, a second balancing guide roller, a speed sensor and a plurality of adjusting guide rollers, wherein the adjusting guide rollers are used for guiding a transmission path of a coil stock in the self-balancing mechanism;
the coil stock is guided by the adjusting guide roller and sequentially passes through the first balance guide roller, the raw material side driving roller, the digital die cutting mechanism, the circular knife die cutting mechanism, the finished product side driving roller and the second balance guide roller.
4. The integrated digital die-cutting, circular knife die-cutting machine according to claim 3, wherein the adjusting guide rollers comprise a first guide roller, a second guide roller, a third guide roller and a fourth guide roller, the first guide roller and the second guide roller are arranged at the left side of the balance guide rail, the third guide roller and the fourth guide roller are arranged at the right side of the balance guide rail, and the first guide roller and the fourth guide roller are arranged below the balance guide rail;
the coil stock passes through first deflector roll, first balanced deflector roll and second deflector roll in proper order and forms first raw materials side equilibrium area, and the coil stock after the processing passes through third deflector roll, second balanced deflector roll and fourth deflector roll in proper order and forms first finished product side equilibrium area, and the coil stock route of first raw materials side equilibrium area and first finished product side equilibrium area sets up along Y axle direction parallel.
5. The integrated digital die-cutting and circular knife-die-cutting machine according to claim 4, wherein the self-balancing mechanism further comprises a third balancing guide roller, a fourth balancing guide roller, a fifth balancing guide roller, a sixth balancing guide roller, a fifth guide roller, a sixth guide roller, a seventh guide roller and an eighth guide roller, the third balancing guide roller, the fourth balancing guide roller, the fifth balancing guide roller and the sixth balancing guide roller are all fixedly arranged on the balancing slide block, the fifth guide roller, the seventh guide roller are all arranged on the left side of the balancing slide rail, and the sixth guide roller and the eighth guide roller are arranged on the right side of the balancing slide rail;
the coil stock after processing passes through the first guide roller, the first balance guide roller, the fifth guide roller, the third balance guide roller, the seventh guide roller, the fifth balance guide roller and the second guide roller in sequence to form a second raw material side balance area, the coil stock after processing passes through the third guide roller, the sixth balance guide roller, the eighth guide roller, the fourth balance guide roller, the sixth guide roller, the second balance guide roller and the fourth guide roller in sequence to form a second finished product side balance area, and coil stock paths of the second raw material side balance area and the second finished product side balance area are arranged in parallel along the Y-axis direction.
6. The integrated digital die-cutting and circular knife die-cutting machine as claimed in claim 5, wherein the surfaces of the raw material side driving roller and the finished product side driving roller are subjected to sand blasting, the left side and the upper side of the raw material side driving roller are provided with a pressing rubber roll and a rubber roll cylinder, the right side and the upper side of the finished product side driving roller are provided with a pressing rubber roll and a rubber roll cylinder, the peripheral surface of the raw material side driving roller or the finished product side driving roller is in contact with the peripheral surface of the corresponding pressing rubber roll, the pressing rubber roll is in driving connection with the rubber roll cylinder, and the rubber roll cylinder controls whether the pressing rubber roll presses a coiled material.
7. The integrated digital die-cutting and circular knife-die-cutting machine according to claim 3, wherein the speed sensor comprises an acceleration sensor and a deceleration sensor, and the acceleration sensor and the deceleration sensor are respectively arranged at the left end and the right end of the balance slide block.
8. The integrated digital die-cutting and circular knife die-cutting machine as claimed in claim 1, wherein the circular knife die-cutting mechanism comprises a knife roller driving motor, a knife roller, a bottom roller and a pad roller, the knife roller, the bottom roller and the pad roller are sequentially arranged on the frame from top to bottom, and a gap for processing coiled materials is formed between the knife roller and the bottom roller; the knife roll driving motor is fixed on the rack, and an output shaft of the knife roll driving motor is fixedly connected with the knife roll so as to drive the knife roll to rotate and work.
Priority Applications (1)
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CN202121386426.7U CN215790384U (en) | 2021-06-22 | 2021-06-22 | Digital die cutting and circular knife die cutting integrated machine |
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CN202121386426.7U CN215790384U (en) | 2021-06-22 | 2021-06-22 | Digital die cutting and circular knife die cutting integrated machine |
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CN215790384U true CN215790384U (en) | 2022-02-11 |
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