CN210436218U - CTP plate automated production equipment - Google Patents

Abstract

The utility model provides an automatic CTP plate production device, which comprises a bracket, a transmission device, a cutting device and a waste collecting device, wherein the cutting device comprises a cutting component and an auxiliary cutting component; the waste material collecting device is arranged on one side of the output direction of the waste material output end and comprises a waste material winding component, an auxiliary winding component, a rubber belt adhesion component and a waste material cutting component; CTP that the inkjet was accomplished produces the waste material after cutting through cutting device, decides the subassembly through addding the waste material at the in-process that carries out the automatic batch rolling of waste material and retrieve, successively carries out cutting off of waste material and sticky tape to carry out the adhesion of the sticky tape on the waste material book that the rolling was accomplished when cutting off the roll change of in-process realization waste material, solved among the prior art cut the in-process because waste material fracture produces the deviation, the technical problem that manual adhesion sticky tape was wasted time and is wasted the ability has been solved when frequently shutting down the technical problem of equipment fault rate increase.

Description

CTP plate automated production equipment

Technical Field

The utility model relates to a CTP version material manufacture equipment technical field especially relates to a CTP version material automated production equipment.

Background

Computer-to-plate (CTP) is a technique that allows metal or polyester plates to be imaged without the use of a film. By eliminating demolding, compositing, and traditional platemaking processes, CTP has transformed the printing industry, which results in reduced prepress time, lower labor costs, and improved print quality. Most CTP systems use thermal CTPs as opposed to violet CTP, depending on the needs of the print job, although both systems are effective. Thermal CTP methods involve the use of a thermal laser to expose and/or remove coated areas while imaging a lithographic printing plate precursor. These lasers are typically at a wavelength of 830 nanometers, but vary in their energy usage depending on whether they are used to expose or ablate material. The purple CTP method involves the use of a laser with a much lower wavelength (e.g., 405- & 410 nanometers). Violet CTP is based on an emulsion included in a lithographic printing plate precursor, which is tuned to visible light exposure. In order to obtain a lithographic printing plate by thermal or violet CTP, additional steps for exposure are generally necessary, such as, for example, a preheating step, a developing step, a baking step, a gumming step, or a drying step. Each additional step is time and energy consuming and chemical composition and may involve additional equipment such as gluing units, ovens. The inkjet CTP method involves simplifying the preparation of lithographic printing plates in which the printing areas of a lithographic image are applied on a lithographic support by jetting droplets.

Wherein cut packing and handle and cut apart in order to satisfy different printing size needs to CTP version material, and patent number is CN201110248305.0 discloses an edge trimmer for printing, including all setting up transmission, cutting device, display control device, receipts material guider and the material collecting device in the frame. The automatic cutting machine has the advantages that the front and rear steering rollers are adopted to guide material plates to be cut into two-side edge materials and middle finished product plates under the action of the upper and lower adjustable blades, the two-side edge materials are automatically collected by the material collecting device after the steering wheels are limited to achieve non-stop real-time longitudinal width-fixed cutting, the cutting machine is convenient to operate, one-time edge cutting is achieved, secondary edge cutting is not needed, the width precision of the cutting plates is high, the noise is low, the service life is long, the automatic cutting machine is safe and reliable, and the automatic cutting machine can be widely applied to online automatic edge cutting of winding drum production lines such as CTP plates, CT.

Above-mentioned mechanism exists a lot of not enoughly, when carrying out CTP version and cutting the garbage collection of in-process, needs manual adhesion one side sticky tape to prevent scattering of waste material book after the waste material rolling is accomplished, and this process is wasted time and energy.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a not enough to prior art provides a CTP version material automated production equipment, the CTP that the inkjet was accomplished produces the waste material after cutting through cutting device, the subassembly is decided through addding the waste material at the in-process that carries out the automatic batch rolling of waste material and retrieve, successively carry out cutting off of waste material and sticky tape, and carry out the adhesion of the sticky tape on the waste material book of rolling completion when cutting off the roll change of in-process realization waste material, cut the in-process among the prior art because the waste material fracture produces the deviation, the technical problem of the manual adhesion sticky tape waste time and energy has been solved when frequently shutting down the technical problem of equipment fault rate increase.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a CTP version material automated production equipment, includes the support and sets up in carry out the transmission device that CTP version material was transmitted on the support, still includes:

the cutting devices are arranged at two ends of the CTP plate in the width direction in the transmission process in two groups and are symmetrically arranged at two ends of the CTP plate in the transmission process, each cutting device comprises cutting assemblies arranged at two ends of the CTP plate in the height direction in the transmission process and an auxiliary cutting assembly arranged at one side of the cutting output end of the CTP plate, when the cutting device works, the CTP plate transmitted by the transmission device generates waste materials after being cut by the cutting assemblies, and the waste materials are subsequently collected after being pressed downwards by the auxiliary cutting assemblies; and

garbage collection device, garbage collection device set up in one side of waste output end output direction, this garbage collection device include waste material rolling component, set up in waste material rolling component is close to the supplementary rolling component of supplementary cutting assembly one side, set up in sticky tape adhesion subassembly between waste material rolling component and the supplementary rolling component and set up in the subassembly is decided to the waste material of sticky tape adhesion subassembly top, the waste material is decided the subassembly by the waste material and is carried out sticky tape adhesion and the change of lap on sticky tape adhesion subassembly and decide at the rolling in-process.

As an improvement, the cutting assembly comprises:

the upper hob is arranged on the support and positioned above the CTP plate in the transmission process, and the upper hob is tangent to the upper surface of the CTP plate in the transmission process;

the lower hob is arranged on the support and located below the CTP plate in the transmission process, the lower hob is arranged in a tangent mode with the lower surface of the CTP plate in the transmission process, and the lower hob is arranged under the upper hob.

As an improvement, the auxiliary cutting assembly comprises:

the elastic supporting piece is arranged in the height direction of the support in a sliding mode, and the upper end face of the elastic supporting piece is arranged in contact with the lower surface of the waste material in the winding process;

the lower end face of the lower pressing piece is in discontinuous contact with the uncut CTP plate material and the waste material respectively;

the transmission piece is arranged between the elastic support piece and the lower pressing piece, one end of the transmission piece is matched with one end of the elastic support piece, and the other end of the transmission piece is matched with one end of the lower pressing piece;

the guide plate is fixedly arranged on the support, the upper surface of the guide plate is in contact with the lower surface of the waste material in the winding process, the guide plate is located on one side, close to the transmission device, of the elastic supporting piece, and the guide plate is matched with the transmission device.

As an improvement, waste material rolling subassembly is including rotating the waste material wind-up roll that sets up, the waste material wind-up roll will be handled through cutting the waste material that the subassembly cuts the back output, and the region is decided in formation between this waste material wind-up roll and the elastic support piece, enters into through elastic support piece and decides in the region and the waste material of rolling on elastic support piece in decide in the region be in the state of stretching straightly.

As the improvement, supplementary rolling subassembly is including the supplementary wind-up roll that rotates the setting, and this supplementary wind-up roll is located the below of waste material wind-up roll, and this waste material wind-up roll is located decide regional below, the inside cavity negative pressure setting that is of supplementary wind-up roll, and equipartition interval has seted up a plurality of negative pressure adsorption holes on the outer periphery of this supplementary wind-up roll.

As an improvement, the tape adhering assembly comprises:

the adhesive tape roller is rotationally arranged below the auxiliary winding roller, and an adhesive tape roll is sleeved on the circumferential surface of the adhesive tape roller;

the adhesive tape adhering platform is fixedly arranged on one side of the adhesive tape output direction of the adhesive tape roller and is tangent to the adhesive tape roller.

As an improvement, the scrap cutting assembly comprises:

the cutting driving piece is fixedly arranged on the bracket and is positioned above the waste materials which are wound in the cutting area;

the one end of cutting off piece fixed set up in on the output of deciding the driving piece, the one end of should cutting off piece with decide the regional upper surface of carrying out the waste material of rolling and be interrupted the contact setting, should cut off the piece and successively carry out cutting off of waste material and sticky tape in the downward movement in-process.

As an improvement, the adhesive tape adhering platform is obliquely arranged with the horizontal plane, the oblique direction of the adhesive tape adhering platform faces the adhesive tape roller, and the cutting piece is arranged in intermittent contact with the adhesive tape adhering platform.

As an improvement, the conveying device comprises a first conveying roller and a second conveying roller which are sequentially arranged along the conveying direction of the CTP plate, the first conveying roller and the second conveying roller are arranged in a height direction, a cutting area is formed between the first conveying roller and the second conveying roller, and the cutting device is positioned in the cutting area.

As an improvement, the elastic supporting piece and the lower pressing piece are respectively connected with the bracket and provided with a return spring.

The beneficial effects of the utility model reside in that:

(1) the utility model discloses more traditional CTP version material cutting equipment, through setting up cutting device and waste material coiling mechanism, when the waste material that the cutting device cut and generate appears splitting in the coiling process of waste material coiling mechanism department, the tensile force that relies on the waste material to produce in the coiling process disappears and drives supplementary cutting assembly and push down the direction to the waste material, make the waste material get into again fast and coil on the coiling assembly, cooperate the waste material cutting assembly on the waste material collecting device simultaneously, successively carry out cutting off of waste material and sticky tape, and carry out the adhesion of the sticky tape on the waste material book that the coiling was accomplished when realizing the roll change of waste material in the cutting process;

(2) the utility model discloses more traditional CTP version material cutting equipment, through setting up supplementary cutting assembly, rely on the disappearance of tensile force when the fracture appears in waste material transmission rolling process to drive down the piece and push down when the waste material is cracked, make the waste material enter waste material wind-up roll and carry out the rolling after the direction of waste material, cooperate waste material cutting assembly simultaneously, when the waste material diameter on the waste material wind-up roll becomes great to corresponding size, cutting driving piece drive cutting piece moves down and makes the lower surface of waste material in the rolling process adhere to the sticky tape, and make waste material and supplementary wind-up roll form the cornerite in cutting piece move down process, and cutting piece continues to move down and cuts off waste material and sticky tape after forming the cornerite, make one section of waste material after cutting off adsorb on supplementary wind-up roll through the mode of negative pressure and continue supplementary rolling, continue to rolling on the waste material wind-up roll and laminate by the sticky tape after another section adheres to the sticky tape, the waste material coil is prevented from being scattered, and the non-stop operation of the equipment in the coil changing process is realized;

(3) the utility model discloses more traditional CTP version cutting equipment, through setting up supplementary cutting assembly, when the fracture of waste material appears in the waste material rolling process, disappearance through the tensile force that waste material self produced, transmit reaction force to elastic support piece and make elastic support piece take place the displacement, and will be located and transmit to the holding-down member, the holding-down member in time carries out surface contact with the waste material in the cutting process, the direction of carrying out the waste material output, on the one hand give CTP version cutting in-process direction to cut, prevent to appear the skew error in the cutting process, on the other hand give the waste material direction of cutting the completion, make the waste material enter waste material wind-up roll department fast and carry out the rolling of waste material, realize the automatic disconnected material processing in the equipment operation process, prevent to produce the cutting deviation because of the fracture of waste material rolling, production;

(4) the utility model discloses more traditional CTP version material cutting equipment, through setting up the inside supplementary wind-up roll that is negative pressure adsorption state, when cutting the piece and removing to waste material one side, cutting the piece and removing the waste material to cutting regional department, when removing to corresponding position, form the cornerite between waste material and the supplementary wind-up roll, the waste material adsorbs rapidly on the circumference surface of supplementary wind-up roll, and when cutting the piece and cut off the waste material, supplementary wind-up roll carries out supplementary rolling with the waste material rapidly, make the manual work have sufficient time to change the book, avoided the equipment to shut down, improved production efficiency greatly;

(5) the utility model discloses more traditional CTP version material cutting equipment, through setting up the sticky tape adhesion subassembly, at the beginning, the sticky tape is torn and is pulled out certain length, and the non-viscidity face of the sticky tape head of this certain length is located sticky tape adhesion platform, when cutting the piece and moving downwards, drive the waste material and move downwards and contact with the sticky tape head that is located sticky tape adhesion platform, and make the sticky tape adhere to the waste material under the support of sticky tape adhesion platform, simultaneously cutting the piece cuts off the waste material of certain thickness, the waste material that cuts off adheres to the sticky tape and continues to roll up to waste material wind-up roll and drive sticky tape head and move to waste material wind-up roll simultaneously, and pull the sticky tape on the sticky tape roll, when pulling to certain length cut off the sticky tape in the piece and continue to move downwards in-process and cut off the sticky tape on the one hand and roll up the laminating of the waste material on it on the waste material wind-up roll, on the other hand, the adhesive tape head with a certain length is lapped on the adhesive tape adhering platform to facilitate the next adhesive tape adhering, so that the automation degree of the equipment is greatly improved, and the production efficiency is improved.

In a word, the utility model has the advantages of simple structure, the cutting precision is high, the waste material rolling is fast, production efficiency is high, is particularly useful for CTP version manufacture equipment technical field.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an elevational view of the overall construction of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a cut-away schematic view of the present invention;

FIG. 4 is a schematic view of a cutting device according to the present invention;

FIG. 5 is a schematic view of the waste collection device of the present invention;

FIG. 6 is a front view of the waste collection device of the present invention;

FIG. 7 is a first schematic view of the waste collection device according to the present invention;

FIG. 8 is a second schematic view of the waste collection device according to the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 8 at A;

FIG. 10 is a schematic view of the working state of the cutter;

FIG. 11 is a second schematic view of the working state of the cutter;

FIG. 12 is a first schematic view of the cutting device according to the present invention;

FIG. 13 is a second schematic view of the cutting device of the present invention in a working state;

fig. 14 is a schematic view of the working state of the auxiliary winding assembly of the present invention.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the accompanying drawings.

Example one

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1, 2 and 3, an automatic CTP plate production apparatus includes a support 1 and a transmission device 3 disposed on the support 1 for transmitting CTP plates 2, and further includes:

the cutting devices 4 are two in number and symmetrically arranged at two ends of the CTP plate 2 in the width direction in the transmission process, each cutting device 4 comprises cutting assemblies 41 arranged at two ends of the CTP plate 2 in the height direction in the transmission process and an auxiliary cutting assembly 42 arranged at one side of the cutting output end of the CTP plate 2, when the cutting device works, waste materials 20 are generated after the CTP plate 2 transmitted by the transmission device 3 is cut by the cutting assemblies 41, and the waste materials 20 are collected after being pressed downwards by the auxiliary cutting assemblies 42; and

garbage collection device 5, garbage collection device 5 set up in one side of 20 output directions of waste material, this garbage collection device 5 include waste material rolling component 51, set up in waste material rolling component 51 is close to supplementary rolling component 52 of supplementary cutting means 42 one side, set up in sticky tape adhesion subassembly 53 between waste material rolling component 51 and the supplementary rolling component 52 and set up in subassembly 54 is decided to the waste material of sticky tape adhesion subassembly 53 top, and subassembly 54 is decided by the waste material to sticky tape adhesion and the change of lap of carrying on sticky tape adhesion subassembly 53 by waste material cutting to waste material 20 in the rolling in-process.

It should be noted that, the CTP plate after production is transmitted by the transmission device 3 and passes through the cutting assembly 41, and is cut under the cutting action of the cutting assembly 41, waste material 20 and finished plate are produced after cutting, the finished plate is continuously conveyed to the rear, waste material 20 is collected at the waste material winding assembly 51 after being wound by the waste material winding assembly 51, and the waste material cutting assembly 54 and the adhesive tape adhesion assembly 53 are matched to realize that when the diameter of waste material winding reaches the corresponding diameter size, the waste material cutting assembly 54 cuts off the waste material 20 and adsorbs the cut waste material 20 continuously conveyed forward on the auxiliary winding assembly to realize automatic cutting and roll changing of the waste material, and meanwhile, the adhesive tape 530 is adhered and cut off in the cutting and roll changing process.

It should be further noted that, when the waste material 20 generated after the cutting is completed is wound at the waste material winding device 5, when the scrap 20 is broken during the transportation, the tension originally generated during the winding process disappears instantaneously due to the breakage of the scrap 20, the disappearance of the tension gives a reverse driving force to the auxiliary cutting assembly 42, the auxiliary cutting assembly 42 is pressed down, giving a guiding effect to the waste material 20 which has just been cut, so that the waste material 20 continues to be transported to the waste-material take-up assembly 51 and the take-up of the waste material 22 continues at the waste-material take-up assembly 51, it is worth mentioning here that the auxiliary cutting assemblies 42 are disposed at both ends of the cutting device 4 in the plate conveying direction, so as to realize the rolling guide of the waste material 22 that is output outward after the cutting is completed, in addition to the guide of cutting the CTP integrated plate that enters the cutting device 4 for cutting.

Further, as shown in fig. 4, 10 and 11, the cutting assembly 41 includes:

the upper hob 411 is arranged on the bracket 1 and is positioned above the CTP plate 2 in the transmission process, and the upper hob 411 is arranged in a tangent manner with the upper surface of the CTP plate 2 in the transmission process;

and a lower hob 412, wherein the lower hob 412 is disposed on the support 1 and below the CTP plate 2 during the transfer process, the lower hob 412 is disposed tangentially to the lower surface of the CTP plate 2 during the transfer process, and the lower hob 412 is disposed directly below the upper hob 411.

Further, as shown in fig. 4, 10 and 11, the auxiliary cutting assembly 42 includes:

the elastic supporting piece 421 is arranged in the height direction of the bracket 1 in a sliding manner, and the upper end surface of the elastic supporting piece 421 is arranged in contact with the lower surface of the waste material 20 in the winding process;

the lower pressing piece 422 is arranged in the height direction of the support 1 in a sliding manner, and the lower end surface of the lower pressing piece 422 is in intermittent contact with the CTP plate material 2 and the waste material 20 which are not cut;

the transmission piece 423 is arranged between the elastic supporting piece 421 and the pressing piece 422, one end of the transmission piece 423 is arranged in a matching way with one end of the elastic supporting piece 421, and the other end of the transmission piece 423 is arranged in a matching way with one end of the pressing piece 422;

the guide plate 424 is fixedly arranged on the bracket 1, the upper surface of the guide plate 424 is arranged in contact with the lower surface of the waste material 20 in the winding process, the guide plate 424 is positioned on one side of the elastic supporting piece 421 close to the transmission device 3, and the guide plate 424 is arranged in a matched manner with the transmission device 3.

It should be noted that the transmission member 423 is a belt-driven belt pulley transmission manner, wherein transmission gears are disposed on the belt pulleys in the coaxial direction, and the transmission member 422 is driven by a rack-and-pinion transmission manner to move up and down, so as to guide the waste material 20.

It should be further noted that the guiding plate 424 gives the broken waste material 20 a guiding function when the elastic supporting member 421 is ejected upwards, so that the broken waste material 202 continues to enter the waste material rolling assembly 51 for rolling again under the guiding function.

Further, as shown in fig. 5, 6, 7, 8 and 9, the scrap collecting assembly 51 includes a rotatably disposed scrap collecting roller 511, the scrap collecting roller 511 collects the scrap 20 cut by the cutting assembly 41 and then discharged backward, a cutting area 510 is formed between the scrap collecting roller 511 and the elastic support member 421, and the scrap 20 which enters the cutting area 510 through the elastic support member 421 and is collected on the elastic support member 421 is in a stretched state in the cutting area 510.

It should be noted that, when the broken waste material 20 is guided by the guide plate 424, the waste material 20 enters the cutting area 510, and due to the action of gravity, when the waste material 20 has a certain length, the waste material 20 is bent and enters the waste material take-up roller 511 to be wound, it should be mentioned here that a side pressure roller may be disposed on one side of the waste material take-up roller 511, the side pressure roller is always closely attached to the waste material 20 wound on the waste material take-up roller 511, the waste material 20 is bent and enters between the side pressure roller and the waste material take-up roller 511, the waste material 20 is rapidly tensioned, and is driven by the elastic support member 421 to move downward.

Further, as shown in fig. 5, 6, 7, 8 and 9, the auxiliary winding assembly 52 includes an auxiliary winding roller 521 rotatably disposed, the auxiliary winding roller 521 is disposed below the waste winding roller 511, the waste winding roller 511 is disposed below the cutting area 510, the auxiliary winding roller 521 is disposed in a hollow negative pressure manner, and a plurality of negative pressure adsorption holes are uniformly distributed on the outer circumferential surface of the auxiliary winding roller 521 at intervals.

It should be noted that the auxiliary wind-up roll 521 is driven by a servo motor to rotate, two rows of negative pressure adsorption holes are formed on the circumferential surface of the auxiliary wind-up roll 521 at intervals, when a wrap angle is formed between one row of negative pressure adsorption holes and the waste material 20 contacts with the surface of the waste material 20, the other row of negative pressure adsorption holes is matched with a negative pressure adsorption device located on one side of the auxiliary wind-up roll 521, the negative pressure adsorption device sucks the auxiliary wind-up roll 521 into vacuum through one row of negative pressure adsorption holes, and adsorbs the waste material 20 on the circumferential surface of the auxiliary wind-up roll 521 through negative pressure adsorption force through the other row of negative pressure adsorption holes contacting with the waste material 20 and forms a wrap angle.

Further, as shown in fig. 5, 6, 7, 8 and 9, the tape adhesion assembly 53 includes:

the adhesive tape roller 531 is rotatably arranged below the auxiliary winding roller 521, and an adhesive tape roll is sleeved on the circumferential surface of the adhesive tape roller 531;

the adhesive tape adhering platform 532 is fixedly arranged on one side of the output direction of the adhesive tape 530 of the adhesive tape roller 531, and the adhesive tape adhering platform 532 is arranged in a tangent manner with the adhesive tape roller 531.

Further, as shown in fig. 5, 6, 7, 8 and 9, the scrap cutting assembly 54 includes:

a cutting driving element 541, wherein the cutting driving element 541 is fixedly arranged on the bracket 1 and is positioned above the waste material 20 which is wound in the cutting area 510;

a cutting member 542, one end of cutting member 542 is fixed set up in on deciding the output of driving piece 541, should decide one end of piece 542 with decide the regional 510 in the waste material 20's that carries out the rolling upper surface and be interrupted the contact setting, should decide that piece 542 carries out successively cutting off of waste material 20 and sticky tape 530 in the downward movement in-process.

When the cutting member 542 is cutting the scrap 20 located in the cutting area 510, and the cutting member 542 moves in the cutting area 510, the straightened scrap 20 is driven to move to the auxiliary winding roller 521, so that a wrap angle is formed between the scrap 20 and the auxiliary winding roller 521, and a plurality of negative pressure adsorption holes are formed on the surface of the auxiliary winding roller 521, and the scrap 20 is adsorbed by the adsorption holes, particularly, when the wrap angle is formed between the scrap 20 and the auxiliary winding roller 521, the surface of the scrap 20 is closely attached to the auxiliary winding roller 521, and the scrap 20 is continuously wound to the scrap winding roller 511 in the process, at this time, the scrap 20 is cut by the cutting member 542, and the cut scrap 20 is adsorbed to the auxiliary winding roller 521, and the auxiliary winding of the scrap 20 is performed under the continuous rotation of the auxiliary winding roller 521.

It should be further noted that, in this embodiment, an elastic cutter may be disposed on the cutting member 542, when the cutting member 542 moves into the cutting area 510, the elastic cutter always contacts the waste material 20 during winding, when the cutting member 542 moves forward to a corresponding distance, the elastic force on the elastic cutter is large enough to make the elastic cutter pop out to cut the waste material 20, an angle is formed between the waste material 20 before cutting and the auxiliary winding roller 521, meanwhile, as another embodiment, a rotating cutter may be disposed on the circumferential surface of the cutting member 542, and when the cutting member 542 moves forward to a corresponding position, the rotating cutter rotates to make the waste material 20 surface contact with the waste material 20 instead of contacting with the surface of the waste material 20, and cuts the waste material 20 during the contacting process.

Further, as shown in fig. 5, 6, 7, 8 and 9, the tape adhering platform 532 is disposed to be inclined from the horizontal plane, the inclined direction of the tape adhering platform 532 faces the tape roller 531, and the severing member 542 is disposed to be intermittently in contact with the tape adhering platform 532.

It should be noted that, initially, the adhesive tape 530 is torn and pulled out by a certain length, and the non-adhesive surface of the adhesive tape head 5301 of the certain length is located on the adhesive tape adhering platform 532, when the cutting member 542 moves downwards, the waste material 20 is driven to move downwards and contact with the adhesive tape head 5301 located on the adhesive tape adhering platform 532, and the adhesive tape 530 is adhered to the waste material 20 under the support of the adhesive tape adhering platform 532, and the cutting member 542 cuts the waste material 20 of a certain thickness, the cut waste material 20 adheres to the adhesive tape 530 and continues to be wound on the waste material winding roller 511, and simultaneously the adhesive tape head 5301 is driven to move on the waste material winding roller 511, and pulls the adhesive tape on the adhesive tape roller 531, when the cutting member 542 continues to move downwards when the certain length, on one hand, the cut adhesive tape 530 is adhered to the waste material winding on the waste material winding roller 511, on the other hand, the adhesive tape head 5301 with a certain length is lapped on the adhesive tape adhering platform 532, so that the next adhesive tape adhesion is facilitated, the automation degree of the equipment is greatly improved, and the production efficiency is improved.

Further, as shown in fig. 3, the conveying device 3 comprises a first conveying roller 31 and a second conveying roller 32 which are arranged in sequence along the conveying direction of the CTP plate 2, the first conveying roller 31 and the second conveying roller 32 are arranged in a height direction, a cutting area 30 is formed between the first conveying roller 31 and the second conveying roller 32, and the cutting device 4 is located in the cutting area 30.

Further, as shown in fig. 3, a return spring is connected between each of the elastic supporting member 421 and the pressing member 422 and the support 1.

It should be noted that, a return spring is connected between the elastic supporting member 421 and the bracket 1, when the waste material 20 is cut by the cutting assembly 41 and then is wound at the waste material winding assembly 51, the waste material 20 generates a tension force in a stretched state, the tension force is transmitted to the elastic supporting member 421 due to the contact between the elastic supporting member 421 and the lower surface of the waste material 20, so that the elastic supporting member 421 is contracted under the action of the spring, and the driving member 423 drives the pressing member 422 to move in the opposite direction, so that the pressing member 422 originally in contact with the waste material 20 is no longer in contact with the upper surface of the waste material 20, when the waste material 20 is broken during the winding process, the tension force originally generated at the elastic supporting roller 511 by the waste material 20 disappears instantaneously, so that the elastic supporting member 421 moves upward under the elastic force of the spring and the driving member 423 drives the pressing member 422 to move downward, so that the push down piece 422 comes into contact with the scrap 20 and performs a pilot cut in the cutting process.

The working process is as follows:

as shown in fig. 1, the CTP plate after production is transported by the transporting device 3 and passes through the cutting assembly 41, and is cut by the cutting action of the cutting assembly 41, and waste material 20 and finished plate are produced after cutting, and the finished plate is transported continuously backward, and waste material 20 is collected at the waste material rolling assembly 51 after rolling treatment of the waste material rolling assembly 51, and when the diameter of the rolled waste material reaches the corresponding diameter, the waste material 20 is cut by the waste material cutting assembly 54, and the cut waste material 20 transported continuously forward is adsorbed on the auxiliary rolling assembly to realize automatic cutting and roll changing of the waste material, and when the diameter of the rolled waste material reaches the corresponding diameter, the adhesive tape 530 is adhered and cut off, and when the waste material 20 produced after cutting is rolled at the waste material rolling device 5, when waste material 20 when the transmission in-process fracture, originally the tensile force that produces in the rolling process disappears in the twinkling of an eye because the fracture of waste material 20, the tensile force disappears and gives supplementary cutting components 42 reverse drive power, make supplementary cutting components 42 push down, give the waste material 20 guide effect that just cut the completion, make waste material 20 continue to transmit and continue to carry out the rolling of waste material 22 in waste material rolling components 51 department to waste material rolling components 51 department, supplementary cutting components 42 set up on cutting device 4's the both ends along panel transmission direction, the realization is outside the direction of cutting the whole panel of CTP that gets into cutting device 4 department and cut, simultaneously, carry out the rolling direction to the waste material 22 of cutting the completion back and outwards exporting.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" 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 defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above description of the disclosed embodiments allows those skilled in the art to make various changes, substitutions of equivalents and alterations to these features and embodiments without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application belong to the protection scope of the present invention.

Claims (10)

1. The utility model provides a CTP version material automated production equipment, includes support (1) and set up in transmission device (3) that carry out CTP version material (2) transmission on support (1), its characterized in that still includes:

the cutting device (4), the number of the cutting devices (4) is two, the cutting devices (4) are symmetrically arranged at two ends of the CTP plate (2) in the width direction in the transmission process, each cutting device (4) comprises cutting assemblies (41) arranged at two ends of the CTP plate (2) in the transmission process in the height direction and an auxiliary cutting assembly (42) arranged at one side of the cutting output end of the CTP plate (2), when the cutting device works, waste materials (20) are generated after the CTP plate (2) transmitted by the transmission device (3) is cut by the cutting assemblies (41), and the waste materials (20) are collected after being pressed downwards by the auxiliary cutting assemblies (42); and

garbage collection device (5), garbage collection device (5) set up in one side of waste material (20) output direction, this garbage collection device (5) include waste material rolling component (51), set up in waste material rolling component (51) are close to supplementary rolling component (52) of supplementary cutting means (42) one side, set up in sticky tape adhesion subassembly (53) between waste material rolling component (51) and supplementary rolling component (52) and set up in subassembly (54) is decided to the waste material of sticky tape adhesion subassembly (53) top, and sticky tape adhesion and the change of lap that subassembly (54) was gone on sticky tape adhesion subassembly (53) are decided to waste material (20) by the waste material in the rolling process.

2. The CTP plate automatic production apparatus of claim 1, wherein the cutting assembly (41) comprises:

the upper hob (411) is arranged on the support (1) and located above the CTP plate (2) in the transmission process, and the upper hob (411) is arranged in a tangent mode with the upper surface of the CTP plate (2) in the transmission process;

the lower hob (412) is arranged on the support (1) and located below the CTP plate (2) in the transmission process, the lower hob (412) is arranged in a tangent mode with the lower surface of the CTP plate (2) in the transmission process, and the lower hob (412) is arranged right below the upper hob (411).

3. The CTP plate automatic production apparatus of claim 1, wherein the auxiliary cutting assembly (42) comprises:

the elastic supporting piece (421) is arranged in the height direction of the bracket (1) in a sliding manner, and the upper end surface of the elastic supporting piece (421) is in contact with the lower surface of the waste material (20) in the winding process;

the lower pressing piece (422) is arranged in the height direction of the support (1) in a sliding mode, and the lower end face of the lower pressing piece (422) is in discontinuous contact with the CTP plate material (2) and the waste material (20) which are not cut;

the transmission piece (423) is arranged between the elastic supporting piece (421) and the lower pressing piece (422), one end of the transmission piece (423) is matched with one end of the elastic supporting piece (421), and the other end of the transmission piece (423) is matched with one end of the lower pressing piece (422);

the guide plate (424), the guide plate (424) fixed set up in on support (1) and the upper surface of this guide plate (424) and the lower surface contact setting of waste material (20) in the rolling process, this guide plate (424) are located elastic support piece (421) are close to one side of transmission device (3), this guide plate (424) with transmission device (3) cooperation setting.

4. The CTP plate automatic production equipment according to claim 3, wherein the waste material winding assembly (51) comprises a waste material winding roller (511) which is rotatably arranged, the waste material winding roller (511) winds up the waste material (20) which is cut by the cutting assembly (41) and then is output backwards, a cutting area (510) is formed between the waste material winding roller (511) and the elastic support member (421), and the waste material (20) which enters the cutting area (510) through the elastic support member (421) and is wound on the elastic support member (421) is in a stretched state in the cutting area (510).

5. The CTP plate automatic production equipment according to claim 4, wherein the auxiliary winding assembly (52) comprises an auxiliary winding roller (521) which is rotatably arranged, the auxiliary winding roller (521) is positioned below the waste winding roller (511), the waste winding roller (511) is positioned below the cutting area (510), the auxiliary winding roller (521) is internally provided with a hollow negative pressure, and a plurality of negative pressure adsorption holes are uniformly distributed on the outer circumferential surface of the auxiliary winding roller (521).

6. The CTP plate automatic production equipment according to claim 5, wherein the adhesive tape adhering assembly (53) comprises:

the adhesive tape roller (531) is rotatably arranged below the auxiliary winding roller (521), and an adhesive tape roll is sleeved on the circumferential surface of the adhesive tape roller (531);

the adhesive tape adhering platform (532) is fixedly arranged on one side of the output direction of the adhesive tape (530) of the adhesive tape roller (531), and the adhesive tape adhering platform (532) is arranged in a tangent mode with the adhesive tape roller (531).

7. The CTP plate automatic production equipment of claim 4, wherein the waste cutting assembly (54) comprises:

the cutting driving piece (541) is fixedly arranged on the bracket (1) and is positioned above the waste material (20) which is wound in the cutting area (510);

cutting member (542), the one end of cutting member (542) fixed set up in on the output of deciding driving piece (541), should decide one end of piece (542) with decide the regional (510) in carry out the waste material (20) of rolling the upper surface intermittent contact setting, should decide that piece (542) carry out cutting off of waste material (20) and sticky tape (530) in the downward movement in-process successively.

8. The CTP plate automatic production equipment of claim 6, wherein the adhesive tape adhering platform (532) is arranged obliquely to the horizontal plane, the oblique direction of the adhesive tape adhering platform (532) faces the adhesive tape roller (531), and the cutting member (542) is arranged in intermittent contact with the adhesive tape adhering platform (532).

9. The CTP plate automatic production equipment according to claim 1, wherein the conveying device (3) comprises a first conveying roller (31) and a second conveying roller (32) which are sequentially arranged along the conveying direction of the CTP plate (2), the first conveying roller (31) and the second conveying roller (32) are arranged in a height direction, a cutting area (30) is formed between the first conveying roller (31) and the second conveying roller (32), and the cutting device (4) is positioned in the cutting area (30).

10. The CTP plate automatic production equipment of claim 3, wherein a return spring is connected between each of the elastic support member (421) and the lower pressing member (422) and the support (1).

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