CN210708052U - Transfer system and compound system - Google Patents

Abstract

The utility model discloses a change card system and combined system, include: the automatic paper cutting machine comprises a rack, a cutting transfer device, a paper transfer device and a feeding device, wherein a transfer roller and a cutting mechanism are arranged on the cutting transfer device; the transfer roller can limit the first raw material belt which is not cut at the periphery of the transfer roller and is matched with the cutting mechanism to cut the first raw material belt conveyed by the rack into raw material units; the transfer roller can transfer the raw material units obtained by cutting and is matched with the transfer device to adhere the raw material units on the second raw material belt. According to the label transferring system and the compound system, after the chip belt is skillfully cut into single electronic tag chips by utilizing the simple structure, the transfer roller can also transfer and adhere the single chip to the surface paper belt of the label transferring device, so that the cut chip can be quickly transferred and adhered, the investment of external transfer adhering equipment is reduced, and the integration level is high; can adjust multirow chip area synchronous transport, the chip area of being convenient for is cut and is obtained the chip unit, has improved the combined machining efficiency in electronic label area.

Description

Transfer system and compound system

Technical Field

The utility model relates to a compound device technical field especially relates to a combined system.

Background

In order to facilitate the processing efficiency during the production of the electronic tags at present, a plurality of electronic tags are mostly packaged on a packaging material belt one by one in advance, and the composition is the basic composition of the whole electronic tag; and the strip-shaped finished product is convenient for later storage, transportation and later processing, so that the electronic tag is widely processed in such a way.

In the electronic tag obtained by primary compounding, the external package is easy to break in the later period, and the secondary package is generally carried out. In the later processing, the chip belt needs to be cut into single chips, and then the single chips need to be subjected to secondary compounding. Generally, a single chip is placed on two adhesive tapes, and then the single chip is secondarily packaged in an adhesive film formed by the two adhesive tapes by using a heat sealing technology, and then the single chip is cut into single electronic tags with secondary composition.

However, the current primary chip tape is primarily cut manually or by some simple cutting devices, then the semi-finished chip obtained by manual or mechanical clamping and cutting is transferred and stuck to one adhesive tape, then the two adhesive tapes are thermally sealed and bonded, and finally the chip is cut. The two adhesive tapes are subjected to heat-sealing bonding and are slit, automation is easy to realize, production line type processing is easy to realize, chips are stuck on the adhesive tapes after the chips are slit in a traditional processing mode, even if the efficiency of a manipulator is used, the requirement is still hard to meet, the cost of the manipulator equipment is high, and the manipulator still occupies space. How to rapidly adhere the chip belt packaged for the first time to the adhesive tape after the chip belt is cut is a problem which needs to be solved urgently in the whole electronic labeling field at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve one of the technical problem that exists among the prior art at least, the utility model provides a structure is ingenious, can be cut into single chip with the chip area branch to fast with this single chip adhesion commentaries on classics card system and the combined system on face paper tape/base stock area.

The utility model provides a technical scheme that its technical problem adopted does:

according to the utility model discloses an aspect provides a transfer card system, include:

the machine frame can convey one or at least two first raw material belts side by side;

the slitting and transferring device is provided with a transferring roller and a slitting mechanism; the transfer roller can limit the one or the at least two side-by-side first raw material belts which are not cut at the periphery of the transfer roller, and the transfer roller can be matched with the cutting mechanism to equally divide the one or the at least two side-by-side first raw material belts conveyed by the rack into raw material units; and

the transfer device is used for conveying one or at least two second raw material belts which are arranged side by side;

the transfer roller can transfer the raw material units obtained by cutting, and the raw material units are adhered to the second raw material belt by matching with the transfer device.

Has the advantages that: the transfer system can limit one or at least two side-by-side first raw material belts which are not cut on the periphery of the transfer roller, and cuts the one or at least two side-by-side first raw material belts conveyed by the frame out of the raw material unit by matching with a cutting mechanism; the raw material units obtained by cutting can be transferred by utilizing the transfer roller, and the raw material units are adhered to the corresponding second raw material belts by matching with the transfer device, after the single chip is skillfully cut from at least one chip belt/electronic tag chip assembly side by the simple structure, the single chip can be transferred and adhered to the facial tissue belt of the transfer device by the transfer roller, the quick transfer and adhesion after cutting can be realized, the investment of external transfer and adhesion equipment is reduced, the chip belt can be simultaneously fixed by the transfer roller, the single chip after cutting can be transferred, the functional strength and the integration level are high.

As an improvement of the technical scheme, the transfer roller comprises a roller shaft, an air sealing cylinder which is rotatably sleeved on the roller shaft and a driving mechanism for rotating the air sealing cylinder, wherein the driving mechanism is arranged on the rack, and the air sealing cylinder is provided with at least one suction area capable of adsorbing a workpiece; when the air sealing cylinder and the roll shaft rotate relatively, the air sealing cylinder is positioned at the corresponding position of the suction area to adsorb the raw material unit obtained by cutting, the air sealing cylinder drives the raw material unit to rotate eccentrically around the rotation center of the air sealing cylinder, and the raw material unit is transferred and adhered to a second raw material belt output by the transfer device.

As an improvement of the technical scheme, a negative pressure cavity is arranged inside the roll shaft, and a louver communicated with the negative pressure cavity is arranged on the side wall of the roll shaft; the air sealing cylinder is rotatably arranged outside the roll shaft, and at least one cavity is arranged in the side wall of the air sealing cylinder; the outer side wall of the air sealing cylinder is provided with a plurality of adsorption through holes communicated with the cavity; and when the suction channel and the air window rotate relatively and are completely staggered, at least part of the raw material units adsorbed on the suction area are adhered on the second raw material belt.

As an improvement of the technical scheme, the gas sealing cylinder further comprises an inner cylinder and an outer cylinder coaxially sleeved outside the inner cylinder, the inner cylinder and the outer cylinder can be synchronously and rotatably installed outside the roller shaft, two ends of the inner cylinder are connected with the outer cylinder through gas sealing rings to form an interlayer space, and the interlayer space is divided into at least two cavities by a partition plate between the outer cylinder and the inner cylinder; the suction channel is arranged on the side wall of the inner barrel corresponding to any one of the cavities, and the adsorption through hole is arranged on the outer barrel.

As an improvement of the technical scheme, the slitting mechanism comprises an adjusting seat, a cutter roller and a plurality of cutters, wherein the adjusting seat is arranged at two ends of the cutter roller, and the adjusting seat is adjustably arranged on the rack; be provided with the installation annular that is used for installing the cutter on the periphery middle part of cutter roller, the both ends that the cutter roller is located the installation annular are provided with the relay portion that the cooperation sealed the inflator, the outer wall that seals the inflator passes through relay portion and drives the cutter roller and rotate, and the cutter cooperation seals the outer wall of inflator and cuts first raw materials area.

As an improvement of the technical scheme, the section transferring device comprises a feeding roller, a discharging roller and a section transferring press roller mechanism, wherein the feeding roller and the discharging roller are both arranged on the rack and are positioned at two sides of the discharging of the transferring roller and the splitting mechanism; the second raw material belt can bypass the feeding roller and the discharging roller and is positioned at one side close to the transfer roller; the transfer roller mechanism is arranged at a position corresponding to the transfer roller on the rack, and the output end of the transfer roller mechanism can reciprocate to press the second raw material belt to the raw material unit conveyed by the transfer roller.

As an improvement of the technical scheme, the transfer compression roller mechanism comprises an installation frame, a compression roller, an adjusting handle arranged on the installation frame and a cross frame, wherein the installation frame is installed on the rack; adjusting handle installs on the mounting bracket, and the output is connected with the crossbearer, the compression roller is rotatable to be installed on the crossbearer, adjusting handle accessible crossbearer presses the compression roller to the transfer roller.

According to the utility model discloses a second face provides a composite system, including material feeding unit and commentaries on classics card system, material feeding unit installs in the frame, is provided with feed roll and one or two at least complementary unit side by side on it, complementary unit all can cooperate the frame to intercept and stop first raw materials area or cooperate feed roll to pinch first raw materials area.

Has the advantages that: this application still provides a combined system in addition, this combined system utilizes complementary unit can cooperate the first raw materials area of frame intercept stop or cooperation feed roll pinch first raw materials area, such structural design can be well will realize when carrying multiunit/multirow chip area/electronic tags chip union, can adjust this multirow/multiunit chip area synchronous transport, be convenient for cut the device cut, the work efficiency of whole combined system has been improved, shift a plurality of electronic tags chips to the facial tissue area on high-efficiently, obtain a belt by a plurality of electronic tags finished product connection.

As an improvement of the above technical solution, the auxiliary mechanism includes a first feeding wheel set and a second feeding wheel set, and the second feeding wheel set is arranged at a position corresponding to the feeding roller of the mounting frame; the machine frame is provided with a conveying table for conveying a first raw material belt, and the first feeding wheel set is arranged at a corresponding position of the conveying table at the feeding side of the machine frame; first feeding wheelset and second feed wheelset all include slider, lift cylinder, install the support on lift cylinder output and install the feed wheel on the support, but slider slidable mounting is on the mounting bracket, the lift cylinder is installed downwards on the slider.

As an improvement of the technical scheme, the feeding roller comprises a driving shaft which is rotatably arranged on the frame, a feeding barrel which is sleeved outside the driving shaft and a driving motor; the driving motor is arranged on the rack through the auxiliary frame, and the output end of the driving motor is connected with the driving shaft through the coupling; the feeding barrel protrudes out of the conveying plane of the conveying table.

Drawings

The present invention will be further described with reference to the accompanying drawings and specific embodiments, wherein:

fig. 1 is a first schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram ii of the embodiment of the present invention;

fig. 3 is a half sectional view of an embodiment of the invention;

FIG. 4 is a schematic structural view of a transfer roller according to an embodiment of the present invention;

FIG. 5 is a schematic view of a part of the structure of a transfer roller in an embodiment of the present invention;

fig. 6 is a cross-sectional view of a transfer roll in an embodiment of the invention;

FIG. 7 is a schematic view of an installation structure of a slitting mechanism in an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a transfer roller mechanism according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a feeding device in an embodiment of the present invention.

Detailed Description

A transfer system and a compound system, the utility model discloses the processed raw material/workpiece comprises a first raw material belt a and a second raw material belt c; the first raw material tape a is cut to obtain a plurality of units, namely raw material units b. Products, raw materials, materials and the like, which are not the structure of the utility model; products, materials, etc. are included in the claims to illustrate structure and/or function. The utility model discloses the material/product that protection object can be processed appears for the banded, like some film area, chip area, strap and so on.

If use the utility model discloses an object is processed the electronic tags area, first raw materials area a for the chip area, be a plurality of chip connection gained, the chip area is cut and is obtained the chip, the chip promptly is raw materials unit b, the chip need transfer the card to facial tissue area/end paper area on, facial tissue area/end paper area tear its mother's area (interim protection film) back, its bonding face can paste electronic tags's chip.

Referring to fig. 1 to 8, the present invention provides a transfer system, including: the machine comprises a machine frame 1, a slitting and transferring device and a transfer device 4; at least two first raw material belts a which are arranged side by side can be conveyed on the frame 1; in the post system of this application, can select to cut one or more first raw materials area a simultaneously according to the batch size of order on the frame 1. In the present application, the frame is provided with the conveying platform 11, and of course, a feeding mechanism may be provided for feeding, which is not described in detail here in the present embodiment, and another development of the present application is described in detail with respect to a preferred embodiment of feeding the first raw material belt a. In addition, the slitting and transferring device is provided with a transferring roller 2 and a slitting mechanism 3; the transfer roller 2 can limit the one or at least two first raw material belts a which are not cut side by side on the periphery thereof and is matched with the cutting mechanism 3 to cut the one or at least two first raw material belts a which are conveyed by the frame 1 out of the raw material units b; one or at least two second raw material belts c arranged side by side are conveyed on the transfer device 4; the transfer roller 2 can transfer the raw material units b obtained by cutting, and the raw material units b are adhered to the corresponding second raw material belts c by matching with the transfer device 4.

Wherein, referring to fig. 3 to 6, the transfer roller 2 comprises a roller shaft 21, an air sealing cylinder 22 rotatably sleeved on the roller shaft 21 and a driving mechanism 23 for rotating the air sealing cylinder 22, the driving mechanism 23 is installed on the frame 1, and the air sealing cylinder 22 is provided with at least one suction area capable of sucking the workpiece; when the air seal cylinder 22 and the roller shaft 21 rotate relatively, the air seal cylinder 22 is positioned at a corresponding position of the suction area to adsorb the divided raw material unit b, the air seal cylinder 22 drives the raw material unit b to rotate eccentrically around the rotation center of the air seal cylinder, and the raw material unit b is transferred and adhered to the second raw material belt c output by the transfer device 4. I.e. it can be simply understood that the suction zone is formed only when the air-lock cylinder 22 is rotated to a specific area, in this embodiment the suction zone is located in a corresponding position between the slitting mechanism 3 and the transfer device 4. In order to realize that the gas cylinder 22 adsorbs the raw material unit b only in this area, it is possible to set the function of starting the suction only when the entire gas cylinder 22 is rotated to this position in the present application. Although the above-described problems to be solved can be achieved, what is conveyed in the present application is a single chip (an electronic tag chip, a sheet circuit), and if the chip alert is small, it is difficult to control the interval between each chip, and at the same time, it is difficult to actually control the whole start-stop process.

To this end, referring to fig. 4 to 6, another embodiment of the present application shows a structure how the gas cylinder 22 can adsorb the workpiece in a specific area. Wherein, the inside of the roll shaft 21 is provided with a negative pressure cavity 211, and the side wall of the roll shaft is provided with a louver 212 communicated with the negative pressure cavity 211; the air sealing cylinder 22 is rotatably arranged outside the roller shaft 21, and at least one cavity 221 is arranged in the side wall of the air sealing cylinder 22; the outer side wall of the gas sealing cylinder 22 is provided with a plurality of adsorption through holes 222 communicated with the cavity 221; at least one cavity 221 is internally provided with a suction channel 223 matched with the air window 212, the cavity 221 provided with the suction channel 223 can be matched with the adsorption through hole 222 to periodically form a suction area, and when the suction channel 223 and the air window 212 rotate relatively and are completely dislocated, the raw material units b adsorbed on the suction area are at least partially adhered to the second raw material belt c.

In this embodiment, the cavity 221 is connected to the louver 212 in a specific direction, so that the entire gas cylinder 22 can absorb the first raw material tape a or the raw material unit b after rotating to a specific area during the rotation. It should be noted that, in the present embodiment, the air window 212 is directed to the corresponding position between the splitting mechanism 3 and the transferring device 4, and besides this influence factor, the area size of the whole cavity 221 also determines the range size of the whole suction area to a certain extent, so in the present embodiment, the opening direction of the air window 212 and the cavity 221 provided with the suction channel 223 are both related to the actual size of the product to be processed, and are selected according to the actual use condition.

For better processing and installation, in a further embodiment of the present application, the air-seal cylinder 22 further includes an inner cylinder 224 and an outer cylinder 225 coaxially sleeved outside the inner cylinder 224, the inner cylinder 224 and the outer cylinder 225 can be synchronously and rotatably installed outside the roller shaft 21, two ends of the inner cylinder 224 are connected with the outer cylinder 225 through air-seal rings 226 and form an interlayer space, and the interlayer space is divided into at least two cavities 221 by a partition 227 between the outer cylinder 225 and the inner cylinder 224; the suction duct 223 is provided on a side wall of the inner cylinder 224 corresponding to any one of the cavities 221, and the suction through hole 222 is provided on the outer cylinder 225. Through practical production verification, during the process of practical cutting and transferring of a single chip primary product in conventional electronic tag processing, the functions can be realized only by two cavities 221, one cavity 221 is in an adsorption effect, the other cavity 221 is not communicated with the air window 212, even the non-functional cavity 221 is not designed, and certainly, the cavity 221 without the suction channel 223 communicated with the air window 212 has other functions, which are described in detail below. The above design enables the whole area without adsorbing the chip to just realize the transportation of the whole first raw material belt a, i.e. the chip belt, so that the gas sealing cylinder 22 can just transport the chip belt of one unit width after rotating for one circle, the cavity 221 just showing the adsorption function is just communicated with the air window 212 through the suction passage 223, the first raw material belt a is adsorbed and wound on the outer cylinder 225, and the cutting mechanism 3 is convenient to be matched with the outer cylinder 225 for cutting.

In order to achieve better rotation, in the present application, both ends of the outer cylinder 225 are mounted on the outer wall of the roller shaft 21 through a rotary bearing, and the outer cylinder 225 is provided with a step for engaging with the outer ring of the rotary bearing at a corresponding position of the rotary bearing. Furthermore, the rotating bearing comprises a first bearing d and a second bearing e, a shoulder for limiting the inner ring of the first bearing d is arranged on the outer wall of one end of the roller shaft 21, and a slip ring set 228 for limiting the outer ring of the first bearing d is sleeved on one side, located on the shoulder, of the roller shaft 21; one end of the outer cylinder 225, which is far away from the shoulder, is provided with a blocking ring 229 for limiting the outer ring of the second bearing e, and one end of the roller shaft 21, which is far away from the shoulder, is provided with a locking nut for locking the inner ring of the second bearing e.

In the present embodiment, the rotation of the entire gas cylinder 22 is particularly important because the opening direction of the louvers 212 on the roller shaft 21 can only be in a specific area, so in the present application, in order to drive the gas cylinder 22 to rotate relative to the roller shaft 21, only the gas cylinder 22 can be selected to rotate around the roller shaft 21. The driving mechanism 23 comprises a driving motor 231 mounted on the frame 1, a rotating shaft 232 arranged on the output end of the driving motor 231, and a driving wheel 233 mounted on the output end of the rotating shaft 232, in order to better drive the whole gas sealing cylinder 22 to rotate synchronously in the present application, the driving wheel 233 is a gear, and one end of the gas sealing cylinder 22 matched with the driving wheel 233 is preferably one end of the sealing ring 229, so that the whole sealing ring 229 can be processed into a toothed ring, which is convenient for processing and later installation, and simultaneously reduces the processing difficulty of the outer cylinder 225.

Referring to fig. 3 and 7, in the present application, the frame 1 is provided with a mounting groove at a position corresponding to the suction area, and the slitting mechanism 3 is adjustably mounted in the mounting groove; the dividing mechanism 3 may divide the chip tape by the following configuration. The splitting mechanism 3 comprises an adjusting seat 31, a cutter roller 32 and a plurality of cutters 33, wherein the adjusting seat 31 is arranged at two ends of the cutter roller 32, and is adjustably arranged in a mounting groove on the rack 1; an installation ring groove 34 for installing the cutter 33 is arranged in the middle of the periphery of the cutter roller 32, relay parts 35 matched with the air sealing cylinder 22 are arranged at two ends, located on the installation ring groove 34, of the cutter roller 32, the outer wall of the air sealing cylinder 22 drives the cutter roller 32 to rotate through the relay parts 35, and the cutter 33 is matched with the outer wall of the air sealing cylinder 22 to cut the first raw material belt a. In order to better mount the cutting knife 33, in this embodiment, all the cutting knives 33 are fixed on a mounting rubber pad 36 in advance, then the mounting rubber pad 36 is wound in the mounting ring groove 34 and is fixed by a screw or other structures, in order to better cut the first raw material belt a in this application, the working surface of the cutting knife 33 should protrude out of the whole mounting ring groove 34 and be consistent with the outer diameter of the relay part 35, so that when the outer cylinder 225 drives the relay part 35 to rotate, the working surface of the cutting knife 33 just abuts against the outer wall of the outer cylinder 225, and the whole first raw material belt a can be cut. The cutting blades 33 must be higher than the mounting rubber pads 36, and the distance between each group of cutting blades 33 is set according to the length of a single chip, and the number of the cavities 221 in the above embodiment is also considered, which is not described in detail herein.

Referring to fig. 1, 2, 3 and 8, the transfer device 4 includes a feeding roller 41, a discharging roller 42 and a transfer roller mechanism 43, the feeding roller 41 and the discharging roller 42 are both mounted on the frame 1 and located at two sides of the discharging of the transfer roller 2 and the splitting mechanism 3; the second raw material belt c passes around the feeding roller 41 and the discharging roller 42 and is positioned at one side close to the transfer roller 2; the transfer and bonding roller mechanism 43 is arranged at a position corresponding to the transfer roller 2 of the frame 1, and the output end of the transfer and bonding roller mechanism 43 can press the second raw material belt c to the raw material unit b conveyed by the transfer roller 2 in a reciprocating mode. The transfer laminating roller mechanism 43 comprises a mounting frame 44, a laminating roller 45, an adjusting handle 47 arranged on the mounting frame 44 and a cross frame 46, wherein the mounting frame 44 is mounted on the rack 1; adjusting handle 47 is installed on mounting bracket 44, and the output is connected with crossbearer 46, and compression roller 45 is rotatable to be installed on crossbearer 46, and adjusting handle 47 accessible crossbearer 46 is with compression roller 45 towards transfer roller 2. In order to adjust the distance between the pressing roller 45 and the outer cylinder 225, that is, in order to adjust the force for adhering the entire second raw material belt c to the raw material unit b, the adjusting handle 47 in the present application may drive the cross frame 46 to extend and contract by an external driving structure. To achieve the entire automatic control, the entire cross member 46 may be driven to extend and retract by the telescopic cylinder 48.

Referring to fig. 1 to 3, in actual production, some raw material units b are stuck and lost on the second raw material belt c and continue to rotate along with the outer cylinder 225, which directly affects the slitting and sticking of the following first raw material belt a. In order to avoid the situation, the frame 1 is further provided with a suction mechanism 5 for sucking the workpiece on the transfer roller 2 below the transfer roller 2, and the suction mechanism 5 is positioned at one end of the transfer roller 2, which is matched with the transfer device 4 to discharge. The suction mechanism 5 comprises an absorption bucket 51, two sides of the absorption bucket 51 protrude and are similar to the outer wall of the whole outer cylinder 225, the absorption bucket 51 is simply covered outside the outer wall of the outer cylinder 225, the lower end of the absorption bucket 51 is connected with an air suction pipe 52, and the air suction pipe 52 is connected with external negative pressure equipment.

Referring to fig. 1, 2 and 9, the present application also provides a compound system comprising a feeding device 6 and the above-mentioned transfer system. In order to improve whole combined system's machining efficiency, this application can carry multiunit first raw materials area a simultaneously, carries the chip area in this application promptly. Wherein, the feeding device 6 is arranged on the frame 1, and is provided with a feeding roller 62 and an auxiliary mechanism 61, the auxiliary mechanism 61 is provided with a plurality of groups in the application, and the groups are arranged according to the actual production requirement; the auxiliary mechanism 61 can be matched with the frame 1 to stop the first raw material belt a or matched with the feed roller 62 to pinch the first raw material belt a.

Referring to fig. 9, the auxiliary mechanism 61 includes a first feeding wheel set 61a and a second feeding wheel set 61b, and the second feeding wheel set 61b is disposed on the mounting frame 44 at a position corresponding to the feeding roller 62; the frame 1 is provided with a conveying platform 11 for conveying a first raw material belt a, and the first feeding wheel set 61a is arranged at the corresponding position of the conveying platform 11 at the feeding side of the frame 1. In the embodiment, in order to save cost, each of the first feeding wheel set 61a and the second feeding wheel set 61b includes a sliding block 611, a lifting cylinder 612, a bracket 613 mounted on an output end of the lifting cylinder 612, and a feeding wheel 614 mounted on the bracket 613, wherein the sliding block 611 is slidably mounted on the mounting frame 44, and the lifting cylinder 612 is downwardly mounted on the sliding block 611, so as to facilitate replacement of parts and market purchase. In order to better adapt to the first raw material belts with different widths, the frame 1 is provided with a slide rail 12 transversely arranged on the conveying table 11 in the conveying direction in the embodiment, and the slide block 611 is slidably mounted on the slide rail 12, so that the distance between each first feeding wheel set 61a or each second feeding wheel set 61b can be adjusted, and the flexibility of the whole use is improved.

When the first raw material belt a is processed, the auxiliary mechanism 61 is matched with the conveying platform 11 to press the unsynchronized first raw material belt, the other auxiliary mechanisms 61 press the corresponding first raw material belt to the feeding roller 62 and are matched with the feeding roller 62 to carry out normal conveying, so that the unsynchronized first raw material belt stops being conveyed, after the position of a component on the unsynchronized first raw material belt a is aligned with the position of the next component on the synchronous first raw material belt a, the auxiliary mechanism 61 corresponding to the unsynchronized first raw material belt a does not interact with the conveying platform 11, and meanwhile, the auxiliary mechanism 61 presses the feeding roller 62 to be matched with the feeding roller 62 to convey the adjusted first raw material belt, so that all the first raw material belts a can be synchronously conveyed. More specifically, the second feeding wheel set 61b cooperates with the feeding roller 62 to pinch the synchronized first raw material strip a, and the first feeding wheel sets 61a corresponding to the remaining first raw material strips a cooperate with the conveying table 11 to press the first raw material strips a and stop the first raw material strips a, and then after all the first raw material strips a are synchronized, the first feeding wheel sets 61a stopped to be lifted, and the corresponding second feeding wheel sets 61b are lowered to pinch the first raw material strips a. On the contrary, all the first raw material belts which are synchronous can be stopped, so that after the synchronous transmission adjustment of the auxiliary mechanism 61 and the feed roller 62, all the auxiliary mechanisms 61 are matched with the feed roller 62 to transmit the first raw material belts collectively. Whether or not the first feedstock strip has components thereon, can be conditioned in the manner described above.

Furthermore, the feeding roller 62 comprises a driving shaft 621 rotatably mounted on the frame 1, a feeding barrel 622 sleeved outside the driving shaft 621, and a driving motor 623; the driving motor 623 is arranged on the frame 1 through an auxiliary frame, and the output end of the driving motor is connected with the driving shaft 621 through a coupling; the delivery plane of the projecting delivery table 11 of the delivery cylinder 622.

The transfer system can limit the first raw material belt a which is not cut on the periphery of the transfer roller 2, and the first raw material belt a conveyed by the frame 1 is cut into raw material units b by matching with the cutting mechanism 3; then utilize transfer roller 2 can shift the raw materials unit b that obtains of cutting to cooperate and change a device 4 with raw materials unit b adhesion on second raw materials area c, above-mentioned simple structure subtly with chip area cut into single chip after, transfer roller 2 can also shift and adhere single chip on the second raw materials area c of changeing a device 4, realized can shift fast and paste after cutting, reduced the input of outside transfer equipment of pasting, transfer roller 2 can fix the chip area simultaneously, can also shift single chip after cutting, functional strength, the integrated level is high. This application still provides a combined system in addition, and this combined system utilizes complementary unit 61 can cooperate frame 1 to intercept first raw materials area an or cooperation feed roll 62 to press from both sides and send first raw materials area a, and such structural design can be well will realize when carrying multiunit chip area, can adjust all chip area synchronous transport, and the device of being convenient for cut cuts, has improved whole combined system's work efficiency.

The above is only a preferred embodiment of the present invention, but the present invention is not limited to the above embodiments, and the technical effects of the present invention should be included in the protection scope of the present invention as long as the technical effects are achieved by any of the same or similar means.

Claims (10)

1. A system for converting signatures, comprising:

a frame (1) on which one or at least two first material belts (a) can be conveyed side by side;

the slitting and transferring device is provided with a transferring roller (2) and a slitting mechanism (3); the transfer roller (2) can limit the one or the at least two side-by-side first raw material belts (a) which are not slit on the periphery of the transfer roller, and can divide the one or the at least two side-by-side first raw material belts (a) conveyed by the frame (1) into raw material units (b) in a sharing way by matching with the slitting mechanism (3); and

a transfer device (4) on which one or at least two second strips of material (c) are conveyed side by side;

the transfer roller (2) can transfer the raw material unit (b) obtained by cutting, and the raw material unit (b) is adhered to the second raw material belt (c) by matching with the transfer device (4).

2. A fransfer system according to claim 1, wherein: the transfer roller (2) comprises a roller shaft (21), an air sealing cylinder (22) which is rotatably sleeved on the roller shaft (21) and a driving mechanism (23) for rotating the air sealing cylinder (22), the driving mechanism (23) is installed on the rack (1), and at least one suction area capable of adsorbing workpieces is arranged on the air sealing cylinder (22); when the air sealing cylinder (22) and the roller shaft (21) rotate relatively, the air sealing cylinder (22) is positioned at the corresponding position of the suction area to adsorb the divided raw material unit (b), the air sealing cylinder (22) drives the raw material unit (b) to eccentrically rotate around the rotation center of the air sealing cylinder, and the raw material unit (b) is transferred and adhered to a second raw material belt (c) output by the transfer device (4).

3. A fransfer system according to claim 2, wherein: a negative pressure cavity (211) is arranged in the roll shaft (21), and a louver (212) communicated with the negative pressure cavity (211) is arranged on the side wall of the roll shaft; the air sealing cylinder (22) is rotatably arranged outside the roll shaft (21), and at least one cavity (221) is arranged in the side wall of the air sealing cylinder (22); the outer side wall of the gas sealing cylinder (22) is provided with a plurality of adsorption through holes (222) communicated with the cavity (221); a suction channel (223) matched with the air window (212) is arranged in at least one cavity (221), the cavity (221) provided with the suction channel (223) can be matched with the adsorption through holes (222) to periodically form a suction area, and when the suction channel (223) and the air window (212) rotate relatively and are completely dislocated, the raw material units (b) adsorbed on the suction area are at least partially adhered to the second raw material belt (c).

4. A fransfer system according to claim 3, wherein: the gas sealing cylinder (22) further comprises an inner cylinder (224) and an outer cylinder (225) coaxially sleeved outside the inner cylinder (224), the inner cylinder (224) and the outer cylinder (225) can be synchronously and rotatably installed outside the roller shaft (21), two ends of the inner cylinder (224) are connected with the outer cylinder (225) through gas sealing rings (226) to form an interlayer space, and the interlayer space is divided into at least two cavities (221) between the outer cylinder (225) and the inner cylinder (224) through a partition plate (227); the suction channel (223) is arranged on the side wall of the inner cylinder (224) corresponding to any one of the cavities (221), and the adsorption through hole (222) is arranged on the outer cylinder (225).

5. A fransfer system according to any of claims 2-4, wherein: the slitting mechanism (3) comprises an adjusting seat (31), a cutter roller (32) and a plurality of cutters (33), wherein the adjusting seat (31) is arranged at two ends of the cutter roller (32), and the adjusting seat is adjustably arranged on the rack (1); be provided with on the periphery middle part of cutter roller (32) and be used for installing installation annular (34) of cutter (33), the both ends that cutter roller (32) are located installation annular (34) are provided with relay portion (35) that the cooperation was sealed inflator (22), the outer wall of sealing inflator (22) drives cutter roller (32) through relay portion (35) and rotates, and cutter (33) cooperation is sealed the outer wall of inflator (22) and is cut first raw materials area (a).

6. A fransfer system according to any of claims 2-4, wherein: the transfer device (4) comprises a feeding roller (41), a discharging roller (42) and a transfer compression roller mechanism (43), wherein the feeding roller (41) and the discharging roller (42) are both arranged on the rack (1) and are positioned on two discharging sides of the transfer roller (2) and the splitting mechanism (3); the second raw material belt (c) can bypass the feeding roller (41) and the discharging roller (42) and is positioned at one side close to the transfer roller (2); the transfer roller mechanism (43) is arranged at a position corresponding to the transfer roller (2) of the rack (1), and the output end of the transfer roller mechanism (43) can press the second raw material belt (c) to the raw material unit (b) conveyed by the transfer roller (2) in a reciprocating manner.

7. A fransfer system according to claim 6, wherein: the transfer press roller mechanism (43) comprises an installation frame (44), a press roller (45), an adjusting handle (47) arranged on the installation frame (44) and a transverse frame (46), wherein the installation frame (44) is installed on the rack (1); adjusting handle (47) are installed on mounting bracket (44), and the output is connected with crossbearer (46), compression roller (45) rotatable mounting is on crossbearer (46), adjusting handle (47) accessible crossbearer (46) press compression roller (45) to transfer roller (2).

8. A compounding system, characterized by: comprising a feeding device (6) and a signature transferring system as claimed in any one of claims 1 to 7, wherein the feeding device (6) is mounted on the frame (1) and is provided with a feeding roller (62) and one or at least two auxiliary mechanisms (61) arranged side by side, and the auxiliary mechanisms (61) can be matched with the frame (1) to intercept the first raw material belt (a) or matched with the feeding roller (62) to pinch the first raw material belt (a).

9. A compounding system according to claim 8, wherein: the auxiliary mechanism (61) comprises a first feeding wheel set (61a) and a second feeding wheel set (61b), and the second feeding wheel set (61b) is arranged on the mounting frame (44) at a position corresponding to the feeding roller (62); a conveying table (11) used for conveying a first raw material belt (a) is arranged on the rack (1), and the first feeding wheel set (61a) is arranged at a corresponding position of the conveying table (11) on the feeding side of the rack (1); the first feeding wheel set (61a) and the second feeding wheel set (61b) respectively comprise a sliding block (611), a lifting cylinder (612), a support (613) installed on the output end of the lifting cylinder (612) and a feeding wheel (614) installed on the support (613), the sliding block (611) is slidably installed on the installation frame (44), and the lifting cylinder (612) is installed on the sliding block (611) downwards.

10. A compounding system according to claim 9, wherein: the feeding roller (62) comprises a driving shaft (621) which is rotatably arranged on the rack (1), a feeding barrel (622) which is sleeved outside the driving shaft (621) and a driving motor (623); the driving motor (623) is mounted on the rack (1) through an auxiliary frame, and the output end of the driving motor is connected with the driving shaft (621) through a coupling; the feeding drum (622) protrudes out of the conveying plane of the conveying table (11).

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