CN223326517U - Continuous receiving device - Google Patents

Abstract

The present invention discloses a continuous material splicing device, which includes a frame with a knife plate provided on the frame, and a material splicing device on each of the transverse sides of the knife plate, the material splicing device including a material strip pressing device, a gluing device and a sliding cutting device driven by a power device to move longitudinally; the sliding cutting device includes a sliding cutting bracket, and a rolling cutting wheel capable of rotating around a vertical axis is installed on the sliding cutting bracket; after adopting the above structure, automatic splicing of material strips is realized, replacing the original manual splicing, thereby improving production efficiency, automatic splicing does not need to rely on workers' experience, and there will be no misalignment, wrinkles, etc. before and after the joints of the new and old material strips, thereby improving the product yield.

Description

Continuous receiving device

Technical Field

The invention relates to a continuous receiving device.

Background

The die cutting equipment is equipment for performing cutting, indentation, gold stamping and other processes by applying pressure to materials by using a die, and is widely applied to post-processing in the industries of printing packaging, electronics, mobile phone rubber mats and the like.

The original roll-to-roll circular knife die cutting process or the hydrogen energy MEA packaging process adopts roll-to-roll material shaft unreeling, the used materials are quite many, the basic unreeling layout is up and down and two sides (unreeling material shaft) and parallel to a die cutting knife seat, multi-layer material compounding and die cutting are carried out, when the roll materials of the unreeling shaft are used up, manual equipment is required to stop and enter the equipment for replacing material rolls, and the head and tail of new and old roll materials are manually attached by adhesive tapes so as to finish the material replacement action, and because the process and the equipment need more roll materials, only one roll of material replacement need to stop for manual treatment, the utilization rate of the equipment is greatly affected, and manual frequent operation (the head and tail adhesive tapes for manually treating the new and old materials) is required to manually treat the new and old materials (adhesive tapes), and because experience and treatment effects are quite different, a certain distance is required to stop after the materials enter the die cutting knife seat, the problem of poor product yield is also caused (the phenomenon that the joint of the new and old materials are not aligned and the joint is also caused).

The existing die cutting equipment has the following problems that after the material roll is used up, the material needs to be manually changed after the machine is stopped, the utilization rate of the equipment is affected, the experience of operators is required to be high, and a certain distance of poor material can be generated after the material is changed.

Disclosure of Invention

The invention aims to provide a continuous receiving device for realizing automatic connection after the material coil is used up.

In order to achieve the aim, the invention discloses a continuous material receiving device, which comprises a rack, wherein a cutting board is arranged on the rack, two lateral sides of the cutting board are respectively provided with a material receiving device, and each material receiving device comprises a material belt pressing device, a rubberizing device and a sliding cutting device which is driven by a power device to longitudinally move;

The sliding cutting device comprises a sliding cutting bracket, and a rolling cutting wheel capable of rotating around a vertical axis is arranged on the sliding cutting bracket;

The material belt pressing device is positioned on the transverse first side material receiving device and is used for pressing the first material belt on the transverse first side of the cutter plate, the sliding cutting device longitudinally moves to enable the rolling cutting wheel on the sliding cutting device to be matched with the vertical first edge of the cutter plate so as to cut off the first material belt and enable the part of the first material belt positioned on the vertical second side of the fracture of the first material belt to be a reserved section, and the rubberizing device on the material receiving device is used for pasting the adhesive tape which is placed on the rubberizing device in advance on the fracture of the reserved section of the first material belt and enabling the part of the adhesive tape exceeding the fracture to be a reserved bonding part;

The material belt pressing device is used for pressing the second material belt on the transverse second side of the cutter plate, the sliding cutting device on the material receiving device moves longitudinally to enable the rolling cutting wheel to be matched with the vertical first edge of the cutter plate to cut off the second material belt and enable the position, located on the vertical first side of the fracture, of the second material belt to be a reserved section of the second material belt, and the rolling cutting wheel rolls the reserved section of the second material belt to a reserved bonding part of the adhesive tape while the rolling cutting wheel cuts off the second material belt.

After adopting above-mentioned structure, through the cooperation action of material area pressing device, rubberizing device, sliding cutting device, realized cutting off of work material area and reserve material area to make reserve section of reserve material area and reserve section fracture department alignment of work material area, utilize the sticky tape to link together both, reserve section of reserve material area continues downstream transport along with reserve section of work material area, realized the automatic continuing of material area from this, replace original manual work material, the production efficiency of improvement, automatic material receiving need not rely on workman's experience, phenomena such as misalignment, fold can not appear around the new and old material area connects, the yields of product can be improved.

Preferably, the material receiving device further comprises a material receiving support, the material belt pressing device, the rubberizing device and the sliding cutting device are arranged on the material receiving support, and the material receiving support is arranged on the frame in a manner capable of transversely moving and is connected with a power device for driving the material receiving support to move. After adopting above-mentioned structure, connect material support lateral shifting can make the material device leave the cutting board a section distance, conveniently penetrates the spare material area from the clearance.

Preferably, two laminating mechanisms are arranged on the frame in a transverse opposite mode, each laminating mechanism corresponds to one material receiving device, and the laminating mechanism is located on a vertical first side of the corresponding material receiving device;

The laminating mechanism is provided with a first material receiving guide roller which is driven by a power device to transversely move, and the first material receiving guide rollers on the two laminating mechanisms are oppositely arranged. After the structure is adopted, the first material receiving guide rollers on the two attaching mechanisms can be relatively close to each other by the transverse movement of the attaching mechanisms, and the joint of the material belt attached with the adhesive tape is extruded by the two first material receiving guide rollers, so that the adhesive tape is attached more tightly. In addition, the first receiving guide roller can be provided with an adhesive tape in advance, and the adhesive tape can be attached from the other side when the connecting part of the material belts passes, so that the connection of the material belts is firmer, and the mode is particularly applied to the case that the material belts are two layers, and the two layers of material belts are connected by the adhesive tape.

Preferably, the material receiving device is provided with a second material receiving guide roller, and the second material receiving guide roller is positioned on the vertical second side of the material belt pressing device. After adopting above-mentioned structure, the second meets material guiding roller and can cooperate laminating mechanism to use for provide the support to the material area.

Preferably, a first fixing part for hanging the material head jig is arranged on one side of the material receiving bracket, which is close to the knife board, a limit column is arranged on the first fixing part, and a magnet for attracting the material head jig is arranged on the first fixing part;

The part that is located the vertical first side of receiving device in the frame is equipped with the second fixed part that is used for fixed stub bar tool, and the second fixed part is equipped with fixed component, is equipped with stub bar tool standing groove on the fixed component. After adopting above-mentioned structure, when placing the standby material area, the material strip coil of strip is located receiving arrangement's vertical second side, and the stub bar of material area is fixed on the stub bar tool after drawing out from the material strip coil of strip. Then, the workman can place first fixed part with stub bar tool from receiving device's vertical second side earlier, and this department spacing post is used for two hopper jigs to fix a position, and magnet is used for holding the stub bar tool, realizes the temporary fixation to the stub bar tool. Subsequently, the worker may free his hand to grasp the hopper jig from the vertical first side of the receiving device and pull it toward the vertical first side of the receiving device. Finally, the worker can place the stub bar jig in the stub bar jig placing groove of the fixing element, and the stub bar jig is fixed at the second fixing part. By means of the arrangement, the pre-placement of the spare material belt can be completed by a single person, the spare material belt is pulled out of the material belt roll, the material head is guided to pass through a gap between the material receiving device and the cutter plate, and finally the spare material belt is fixed to the second fixing portion.

Preferably, an avoidance gap is formed at the edge of the first vertical side of the cutter plate, a wheel shaft is arranged on the sliding cutting support, the rolling cutting wheel is rotationally arranged on the wheel shaft, and a second spring for applying acting force to the rolling cutting wheel is arranged at the first vertical side of the rolling cutting wheel;

When the material receiving device transversely moves to a position close to the cutter plate, the rolling cutting wheel firstly enters the avoidance notch, the rolling cutting wheel gradually moves upwards to the vertical first side edge of the cutter plate against the acting force of the spring when the sliding cutting device longitudinally slides, and the sliding cutting device continuously longitudinally slides to enable the rolling cutting wheel to longitudinally move along the vertical first side edge of the cutter plate so as to cut off the material belt. By adopting the structure, when the cutter is cut off every time, the rolling cutting wheel transversely enters the avoidance gap, then moves out of the avoidance gap longitudinally, and then moves along the first vertical side edge of the cutter plate, so that the second vertical side end face of the rolling cutting wheel can be well attached to the first vertical side edge of the cutter plate, and the sliding cutting device is ensured to have good shearing effect.

Preferably, the sliding support is provided with a wheel frame capable of sliding transversely, the rolling cutting wheel is arranged on the wheel frame, and a third spring for enabling the rolling cutting wheel to be close to the knife board is arranged between the sliding support and the wheel frame. After adopting above-mentioned structure, the roll cutting wheel can transversely slide and receive the effort of third spring, makes the roll cutting during operation roll cutting wheel can have certain horizontal activity space, not only roll cutting wheel can be close to the cutting board more and have certain pressure effect, and is better to the cutting effect in material area.

Preferably, the frame is provided with a material belt buffer device, and the material belt buffer device is used for buffering the material belt at the downstream of the material receiving device and releasing the buffered material belt outwards when the material receiving device works. After adopting above-mentioned structure, because connect the material work can occupy certain time, in order to guarantee to connect the material to the normal supply material area of cross cutting equipment when expecting, be equipped with material area buffer unit in the frame, material area buffer unit buffers a portion of material area in advance, connects the material during operation can guarantee to normally supply material area to cross cutting equipment through releasing the buffering material area, can realize not shutting down continuous material from this, the production efficiency of improvement greatly.

Preferably, the material belt buffering device comprises a buffering bracket, wherein a roller group bracket which is driven by a power device to transversely move is arranged on the buffering bracket, a group of material belt supporting rollers are respectively arranged on the buffering bracket and the roller group bracket, and the two groups of material belt supporting rollers are transversely oppositely arranged;

Two groups of material belt supporting rollers on the buffer support and the roller group support are used for the staggered winding of the material belt;

The buffer support is provided with a front guide roller, the buffer support is provided with a pressing plate which can move relative to the front guide roller, the pressing plate is connected with a power device which drives the pressing plate to move, and a gap between the pressing plate and the front guide roller is used for leading a feeding belt to pass through and then to a material belt supporting roller. After adopting above-mentioned structure, roller group support can make two sets of material area backing rolls be close to relatively or keep away from for buffering support lateral movement, can buffer the material area when two sets of material area backing rolls keep away from relatively, can release the material area when two sets of material area backing rolls are close to relatively. The front guide roller and the pressing plate cooperate to clamp the material belt from the upstream of the buffer storage bracket, so that the material receiving device is ensured to be capable of completing the material receiving action, and meanwhile, the material belt buffer storage device is not influenced by the material receiving.

Preferably, the material belt buffer device is located at a first vertical side of the frame, a material belt deviation correcting device is arranged at a position, located at the first vertical side of the material belt buffer device, of the frame, and the material belt deviation correcting device is used for correcting a material belt at the downstream of the material belt buffer device. After the structure is adopted, the material belt deviation correcting device is used for correcting deviation of the material belt coming out of the material belt buffering device, and the accurate position of the material belt entering the die cutting device is ensured.

In conclusion, the automatic material tape splicing device has the beneficial effects that the automatic material tape splicing is realized, the manual material splicing is not needed after the die cutting equipment is stopped, the production efficiency is improved, the automatic material splicing is independent of the experience of workers, the phenomena of misalignment, wrinkling and the like can not occur before and after the joint of new and old material tapes, and the yield of products is greatly improved.

Drawings

FIG. 1 is a schematic diagram of the structure of an embodiment of the present utility model;

FIG. 2 is a schematic view of the main part of the embodiment of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic view of the material receiving apparatus in the embodiment shown in FIG. 1;

fig. 5 is a schematic diagram of a material receiving process implemented by the present utility model.

The device comprises a frame 1, a knife board 2, a material receiving device 3, a material belt pressing device 4, a material belt sticking device 5, a material belt buffering device 6, a sliding cutting device 7, a sliding cutting support 8, a rolling cutting wheel 9, a material receiving support 10, a bonding mechanism 11, a first material receiving guide roller 12, a second material receiving guide roller 13, a first fixing part 14, a limit post 16, a second fixing part 17, a fixing element 18, a material head jig placing groove 21, an avoiding notch 22, a wheel shaft 23, a second spring 24, a wheel frame 25, a third spring 26, a material belt buffering device 27, a buffering support 28, a roller group support 29, a material belt supporting roller 30, a front guide roller 31, a pressing plate 32, a material belt rectifying device 101, a first material roll 102, a second material roll 103, a first material belt 104, a second material belt 105, a rubber belt 106 and a bonding part.

Detailed Description

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

Referring to fig. 1 to 5, in one embodiment of the present utility model, a continuous receiving device includes a frame 1, a knife board 2 is provided on the frame 1, two receiving devices 3 are provided on two lateral sides of the knife board 2, and the receiving devices 3 include a tape pressing device 4, a rubberizing device 5, and a sliding cutting device 6 driven by a power device to move longitudinally. The slide cutting device 6 comprises a slide cutting bracket 7, and a rolling cutting wheel 8 capable of rotating around a vertical axis is arranged on the slide cutting bracket 7.

The material belt pressing device 4 positioned on the transverse first side material receiving device 3 is used for pressing the first material belt on the transverse first side of the knife board 2, the sliding cutting device 6 moves longitudinally to enable the rolling cutting wheel 8 on the sliding cutting device 6 to be matched with the vertical first edge of the knife board 2 to cut off the first material belt and enable the portion of the first material belt positioned on the vertical second side of the fracture to be a reserved section of the first material belt, and the rubberizing device 5 on the material receiving device 3 is used for pasting the adhesive tape which is placed on the rubberizing device in advance on the fracture of the reserved section of the first material belt and enabling the portion of the adhesive tape exceeding the fracture to be a reserved bonding portion.

The material belt pressing device 4 on the material receiving device 3 on the transverse second side is used for pressing the second material belt on the transverse second side of the cutter plate 2, the sliding cutting device 6 on the material receiving device 3 moves longitudinally to enable the rolling cutting wheel 8 to be matched with the vertical first edge of the cutter plate 2 to cut off the second material belt and enable the position of the second material belt on the vertical first side of the fracture to be a reserved section of the second material belt, and the rolling cutting wheel 8 rolls the reserved section of the second material belt to a reserved bonding part of the adhesive tape while the rolling cutting wheel 8 cuts off the second material belt.

Through the cooperation action of material area press device 4, rubberizing device 5, smooth cutting device 6, realized cutting off of work material area and spare material area to make the reserve section of spare material area and the reserve section fracture department of work material area align, utilize the sticky tape to link together both, reserve section of spare material area continues to downstream transport along with the reserve section of work material area, realized the automatic connection of material area from this, replace original manual work material, improved production efficiency, automatic material does not need to rely on workman's experience, phenomenon such as alignment, fold can not appear around new and old material area connects, the yields of product can be improved.

The material receiving device 3 further comprises a material receiving support 9, the material belt pressing device 4, the rubberizing device 5 and the sliding cutting device 6 are arranged on the material receiving support 9, and the material receiving support 9 is arranged on the frame 1 in a manner capable of transversely moving and is connected with a power device for driving the material receiving support to move. The material receiving bracket 9 can enable the material receiving device 3 to be separated from the cutting board 2 by a certain distance by transverse movement, so that the spare material belt can be conveniently penetrated into the gap.

The machine frame 1 is provided with two laminating mechanisms 10 which are transversely and oppositely arranged, each laminating mechanism 10 corresponds to one material receiving device 3, each laminating mechanism 10 is positioned on the vertical first side of the corresponding material receiving device 3, each laminating mechanism 10 is provided with a first material receiving guide roller 11 which is driven by a power device to transversely move, and the first material receiving guide rollers 11 on the two laminating mechanisms 10 are oppositely arranged. The laminating mechanism 10 transversely moves to enable the first material receiving guide rollers 11 on the two laminating mechanisms 10 to be relatively close, and the joint of the material belt with the adhesive tape is extruded by the two first material receiving guide rollers 11, so that the adhesive tape is laminated more tightly. In addition, the first receiving guide roller 11 can be provided with an adhesive tape in advance, and the adhesive tape can be attached from the other side when the connection part of the material belts passes, so that the connection of the material belts is firmer, and the mode is particularly applied to the case that the material belts are two layers, and the two layers of material belts are connected by the adhesive tape.

The receiving device 3 is provided with a second receiving guide roller 12, and the second receiving guide roller 12 is positioned on the vertical second side of the material belt pressing device 4. The second receiving guide roll 12 can be used in conjunction with the laminating mechanism 10 to provide support to the web.

One side of the material receiving bracket 9, which is close to the knife board 2, is provided with a first fixing part 13 for hanging the material head jig, the first fixing part 13 is provided with a limit column 14, and a magnet for attracting the material head jig is arranged at the first fixing part 13.

The part of the frame 1, which is positioned on the first vertical side of the receiving device 3, is provided with a second fixing part 16 for fixing a stub bar jig, the second fixing part 16 is provided with a fixing element 17, and the fixing element 17 is provided with a stub bar jig placing groove 18.

When placing the standby material area, the material area is rolled up and is located the vertical second side of receiving device 3, and the stub bar of material area is fixed on the stub bar tool after pulling out from the material area. Then, the workman can place first fixed part 13 with stub bar tool from the vertical second side of receiving device 3 earlier, and this department spacing post 14 is used for two hopper jigs to fix a position, and magnet is used for holding the stub bar tool, realizes the temporary fixation to the stub bar tool. Subsequently, the worker may leave his hand free to grasp the hopper jig from the vertical first side of the receiving device 3 and pull it towards the vertical first side of the receiving device 3. Finally, the worker can place the stub bar jig in the stub bar jig placement groove 18 of the fixing member 17, fixing, at which time the stub bar jig is fixed to the second fixing portion 16. By this arrangement, the pre-placement of the strip of stock material can be accomplished by only a single person by pulling the strip of stock material out of the roll of stock material and guiding the stub bar through the gap between the receiving device 3 and the blade 2, and finally securing it to the second securing portion 16.

The vertical first side border department of cutting board 2 is equipped with dodges breach 21, is equipped with shaft 22 on the slipway support 7, and the roll cutting wheel 8 rotates to install on shaft 22, and the vertical first side of roll cutting wheel 8 is equipped with the second spring 23 that is used for exerting effort to roll cutting wheel 8.

When the material receiving device 3 transversely moves to a position close to the cutter plate 2, the rolling cutting wheel 8 firstly enters the avoidance notch 21, the rolling cutting wheel 8 gradually moves upwards to the vertical first side edge of the cutter plate 2 against the action force of the spring when the sliding cutting device 6 longitudinally slides, and the sliding cutting device 6 continuously longitudinally slides to enable the rolling cutting wheel 8 to longitudinally move along the vertical first side edge of the cutter plate 2 so as to cut off a material belt.

During each cutting operation, the rolling cutting wheel 8 transversely enters the avoidance gap 21, then moves out of the avoidance gap 21 longitudinally, and then the rolling cutting wheel 8 moves along the first vertical side edge of the cutter plate 2, so that the second vertical side end surface of the rolling cutting wheel 8 can be well attached to the first vertical side edge of the cutter plate 2, and the sliding cutting device 6 is ensured to have a good shearing effect.

The sliding support 7 is provided with a wheel frame 24 capable of sliding transversely, the rolling wheel 8 is arranged on the wheel frame 24, and a third spring 25 for enabling the rolling wheel 8 to be close to the knife board 2 is arranged between the sliding support 7 and the wheel frame 24. The roll cutting wheel 8 can transversely slide and receive the effort of third spring 25, makes roll cutting during operation roll cutting wheel 8 can have certain horizontal activity space, and not only roll cutting wheel 8 can be close to cutting board 2 more and have certain pressure effect, and is better to the cutting effect of material area.

The frame 1 is provided with a material belt buffer device 26, and the material belt buffer device 26 is used for buffering the material belt at the downstream of the material receiving device 3 and releasing the buffered material belt outwards when the material receiving device 3 works. Because the material receiving work can occupy certain time, in order to ensure that the material belt can be normally supplied to die cutting equipment when receiving the material, the frame 1 is provided with a material belt buffer device 26, and the material belt buffer device 26 buffers a part of the material belt in advance, and the material receiving work can ensure that the material belt is normally supplied to the die cutting equipment by releasing the buffer material belt, so that the continuous material receiving without stopping can be realized, and the production efficiency is greatly improved.

The material belt buffer device 26 comprises a buffer support 27, a roller set support 28 driven by a power device to transversely move is arranged on the buffer support 27, a group of material belt support rollers 29 are respectively arranged on the buffer support 27 and the roller set support 28, and the two groups of material belt support rollers 29 are transversely oppositely arranged. Two sets of belt support rollers 29 on the buffer support 27 and the roller set support 28 are used for the staggered winding of the feed belt. The front guide roller 30 is installed on the buffer support 27, the pressing plate 31 which can move relative to the front guide roller 30 is installed on the buffer support 27, the pressing plate 31 is connected with a power device which drives the pressing plate 31 to move, and a gap between the pressing plate 31 and the front guide roller 30 is used for leading a feeding belt to pass through and then to the feeding belt supporting roller 29.

The lateral movement of the roller set support 28 relative to the buffer support 27 allows the two sets of tape support rollers 29 to be relatively close or far apart, buffering the tape when the two sets of tape support rollers 29 are relatively far apart, and releasing the tape when the two sets of tape support rollers 29 are relatively close. The front guide roller 30 and the pressing plate 31 cooperate to clamp the material belt from the upstream of the buffer support 27, so that the material receiving device 3 can complete the material receiving action, and the material belt buffer device 26 is not affected by the material receiving.

The material belt buffer device 26 is located on the first vertical side of the frame 1, a material belt deviation correcting device 32 is arranged on the frame 1 and located on the first vertical side of the material belt buffer device 26, and the material belt deviation correcting device 32 is used for correcting deviation of a material belt at the downstream of the material belt buffer device. The material belt deviation correcting device 32 is used for correcting the material belt from the material belt buffering device 26, so that the material belt can enter the accurate position of the die cutting device.

The belt pressing device 4 in the illustrated embodiment comprises a belt pressing plate driven by an air cylinder to move transversely, and other structures in the prior art can be adopted for the belt pressing device 4 in other embodiments. The rubberizing device 5 in the illustrated embodiment may comprise a flipping and swinging arm driven by a cylinder to rotate about a longitudinal axis, the free end of the flipping and swinging arm being provided with a rubberizing flipping plate for pre-positioning the tape. In other embodiments, the rubberizing device 5 may also take other configurations known in the art.

Referring to fig. 2, 3 and 5, the present utility model operates in such a manner that one of the first roll 101 and the second roll 102 operates normally and one is used as a standby. The first web 103 drawn from the first roll 101 passes through the gap between one of the receiving devices 3 and the knife 2, and the second web 104 drawn from the second roll 102 passes through the gap between the other receiving device 3 and the knife 2. When one of the first roll 101 and the second roll 102 is about to run out, the two material receiving devices 3 work cooperatively to cut off the first material belt 103 and the second material belt 104, and the reserved sections of the two materials are adhered together by the adhesive tape 105, so that material receiving is realized, and the connection of the material belts is also realized. After receiving, the retaining section of the working material belt drives the retaining section of the standby material belt to continue to convey downstream.

Because the material receiving work can occupy certain time, in order to ensure that the material belt can be normally supplied to die cutting equipment when receiving the material, the frame 1 is provided with a material belt buffer device 26, and the material belt buffer device 26 buffers a part of the material belt in advance, and the material receiving work can ensure that the material belt is normally supplied to the die cutting equipment by releasing the buffer material belt, so that the continuous material receiving without stopping can be realized, and the production efficiency is greatly improved.

The second material belt 104 on the left side is a working material belt, the first material belt 103 on the right side is a standby material belt, and the specific material receiving step is shown in the figures, namely the material belt pressing device 4 on the material receiving device 3 on the right side presses the first material belt 103 on the right side of the cutter plate 2, the sliding cutting device 6 on the right side longitudinally moves along the direction vertical to the paper surface to enable the rolling cutting wheel 8 on the sliding cutting device 6 to be matched with the upper edge of the cutter plate 2 so as to cut the first material belt 103 and enable the part of the first material belt 103 on the lower side of a fracture to be a reserved section, and the rubberizing device 5 on the right side is used for pasting the adhesive tape 105 which is pre-placed on the rubberizing device at the fracture of the reserved section of the first material belt 103 and enabling the part of the adhesive tape which exceeds the upper side of the fracture to be a reserved bonding part 106. The strip pressing device 4 on the left receiving device 3 is used for pressing the second strip 104 on the left side of the knife board 2, the sliding cutting device 6 on the receiving device 3 moves longitudinally in the direction perpendicular to the paper surface to enable the rolling cutting wheel 8 on the left side to cooperate with the upper edge of the knife board 2 to cut off the second strip 104 and enable the position of the second strip 104 on the upper side of a fracture to be a reserved section of the second strip 104, and the rolling cutting wheel 8 rolls the reserved section of the second strip 104 to the reserved bonding part 106 of the adhesive tape 105 while the rolling cutting wheel 8 on the left side cuts off the second strip 104.

In the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, directly connected, indirectly connected via an intervening medium, or in communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present invention, and these modifications and substitutions should also be considered as being within the scope of the present invention.

Claims (10)

1. The continuous material receiving device comprises a frame (1) and is characterized in that a cutting board (2) is arranged on the frame (1), two material receiving devices (3) are respectively arranged on two lateral sides of the cutting board (2), and each material receiving device (3) comprises a material belt pressing device (4), a rubberizing device (5) and a sliding cutting device (6) which is driven by a power device to longitudinally move;

The sliding cutting device (6) comprises a sliding cutting bracket (7), and a rolling cutting wheel (8) capable of rotating around a vertical axis is arranged on the sliding cutting bracket (7);

the material belt pressing device (4) is arranged on the transverse first side material receiving device (3) and is used for pressing the first material belt on the transverse first side of the cutter plate (2), the sliding cutting device (6) moves longitudinally to enable the rolling cutting wheel (8) on the sliding cutting device (6) to be matched with the vertical first edge of the cutter plate (2) so as to cut off the first material belt and enable the part of the first material belt on the vertical second side of the fracture of the first material belt to be a reserved section, and the rubberizing device (5) on the material receiving device (3) is used for pasting the adhesive tape which is placed on the adhesive tape in advance on the fracture of the reserved section of the first material belt and enabling the part of the adhesive tape which exceeds the fracture to be a reserved bonding part;

The material belt pressing device (4) on the material receiving device (3) on the transverse second side is used for pressing the second material belt on the transverse second side of the cutting board (2), the sliding cutting device (6) on the material receiving device (3) moves longitudinally to enable the rolling cutting wheel (8) to be matched with the vertical first edge of the cutting board (2) to cut off the second material belt and enable the position, located on the vertical first side of the fracture of the second material belt, of the second material belt to be a reserved section of the second material belt, and the rolling cutting wheel (8) rolls the reserved section of the second material belt to a reserved bonding part of the adhesive tape while the rolling cutting wheel (8) cuts off the second material belt.

2. Continuous receiving device according to claim 1, characterized in that the receiving device (3) further comprises a receiving bracket (9), the material tape pressing device (4), the rubberizing device (5) and the sliding cutting device (6) are arranged on the receiving bracket (9), and the receiving bracket (9) is arranged on the frame (1) in a transversely movable manner and is connected with a power device for driving the movement of the receiving bracket.

3. Continuous receiving device according to claim 2, characterized in that two laminating mechanisms (10) are arranged transversely opposite on the frame (1), each laminating mechanism (10) corresponding to one receiving device (3), the laminating mechanism (10) being located on a vertical first side of the corresponding receiving device (3);

The laminating mechanism (10) is provided with a first material receiving guide roller (11) which is driven by a power device to transversely move, and the first material receiving guide rollers (11) on the two laminating mechanisms (10) are oppositely arranged.

4. A continuous receiving device according to claim 3, characterized in that the receiving device (3) is provided with a second receiving guide roller (12), the second receiving guide roller (12) being located on the vertical second side of the strip pressing device (4).

5. The continuous receiving device according to claim 4, wherein a first fixing part (13) for hanging a stub bar jig is arranged on one side of the receiving bracket (9) close to the knife board (2), a limit column (14) is arranged on the first fixing part (13), and a magnet for attracting the stub bar jig is arranged at the first fixing part (13);

The part of the frame (1) which is positioned on the vertical first side of the receiving device (3) is provided with a second fixing part (16) for fixing a stub bar jig, the second fixing part (16) is provided with a fixing element (17), and the fixing element (17) is provided with a stub bar jig placing groove (18).

6. Continuous receiving device according to claim 1, characterized in that the edge of the vertical first side of the knife plate (2) is provided with an avoidance gap (21), the sliding cutting support (7) is provided with a wheel shaft (22), the rolling cutting wheel (8) is rotatably arranged on the wheel shaft (22), and the vertical first side of the rolling cutting wheel (8) is provided with a second spring (23) for applying acting force to the rolling cutting wheel (8);

When the material receiving device (3) transversely moves to a position close to the cutting plate (2), the rolling cutting wheel (8) firstly enters the avoidance gap (21), the rolling cutting wheel (8) gradually moves upwards to the vertical first side edge of the cutting plate (2) against the action force of a spring when the sliding cutting device (6) longitudinally slides, and the sliding cutting device (6) continuously longitudinally slides to enable the rolling cutting wheel (8) to longitudinally move along the vertical first side edge of the cutting plate (2) so as to cut off a material belt.

7. Continuous receiving device according to claim 1, characterized in that the slide cutting bracket (7) is provided with a wheel frame (24) capable of sliding transversely, the roll cutting wheel (8) is arranged on the wheel frame (24), and a third spring (25) for making the roll cutting wheel (8) close to the knife board (2) is arranged between the slide cutting bracket (7) and the wheel frame (24).

8. Continuous receiving device according to claim 1, characterized in that the frame (1) is provided with a strip buffering device (26), the strip buffering device (26) being adapted to buffer the strip downstream of the receiving device (3) and to release the buffered strip outwards when the receiving device (3) is in operation.

9. The continuous receiving device according to claim 8, wherein the material belt buffering device (26) comprises a buffering bracket (27), a roller group bracket (28) which is driven by a power device to transversely move is arranged on the buffering bracket (27), a group of material belt supporting rollers (29) are respectively arranged on the buffering bracket (27) and the roller group bracket (28), and the two groups of material belt supporting rollers (29) are transversely arranged oppositely;

Two groups of material belt supporting rollers (29) on the buffer support (27) and the roller group support (28) are used for the staggered winding of the material belt;

The front guide roller (30) is arranged on the buffer support (27), the pressing plate (31) which can move relative to the front guide roller (30) is arranged on the buffer support (27), the pressing plate (31) is connected with a power device which drives the pressing plate (31) to move, and a gap between the pressing plate (31) and the front guide roller (30) is used for leading a feeding belt to pass through and then to the feeding belt supporting roller (29).

10. The continuous receiving device according to claim 8, wherein the material belt buffer device (26) is located on a first vertical side of the frame (1), a material belt deviation correcting device (32) is arranged on the frame (1) at a position located on the first vertical side of the material belt buffer device (26), and the material belt deviation correcting device (32) is used for correcting a material belt downstream of the material belt buffer device.