CN114346698B - Production line of CTP board - Google Patents

Abstract

The invention relates to the technical field of CTP plate production, in particular to a CTP plate production line which comprises a first conveyor, a second conveyor, a printing device, a limiting device, a flushing device, a positioning and translation device, a punching device, a bending device and a blanking device, wherein the first conveyor is used for conveying a CTP plate to a printing device; the input end of the second conveyor is arranged at the output end of the first linear conveyor; the printing device is fixedly arranged on the first conveyor; the limiting device is arranged below the printing device, the limiting device is fixedly connected with the first conveyor, the flushing device is arranged on the first linear conveyor, and the flushing device is fixedly connected with the first conveyor; the positioning translation device is fixedly arranged at the input end of the second conveyor; the punching device is arranged beside the positioning and translation device and is fixedly connected with the second conveyor; the bending device and the punching device are symmetrically arranged; the blanking device is fixedly arranged at the output end of the second conveyor. This application can effectual improvement production efficiency and production quality.

Description

Production line of CTP board

Technical Field

The invention relates to the technical field of CTP plate production, in particular to a CTP plate production line.

Background

The utility model provides a CTP board is by printing, washing, punch, bend the completion of multichannel process operation when production, and traditional mode of production is carried the CTP board by the manual work and is put into different equipment in proper order and process production, carries the human body contact of CTP board that prints and can remain the seal of a government organization in old china and influence printing quality, and production efficiency is low through artifical transport simultaneously, so needs the production water line of a CTP board to solve above-mentioned problem.

Disclosure of Invention

Based on this, it is necessary to provide a CTP plate production line for solving the problems in the prior art, and the present application can effectively improve the production efficiency and the production quality.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a production line of CTP plates comprises a first conveyor, a second conveyor, a printing device, a limiting device, a flushing device, a positioning and translation device, a punching device, a bending device and a blanking device; the input end of the second conveyor is arranged at the output end of the first linear conveyor; the printing device is fixedly arranged on the first conveyor; the limiting device is arranged below the printing device and fixedly connected with the first conveyor, the flushing device is arranged on the first conveyor and fixedly connected with the first conveyor; the positioning translation device is fixedly arranged at the input end of the second conveyor; the punching device is arranged beside the positioning and translation device and is fixedly connected with the second conveyor; the bending device and the punching device are symmetrically arranged, and the bending device is fixedly connected with the second conveyor; the blanking device is fixedly arranged at the output end of the second conveyor.

Preferably, the limiting device comprises a first mounting shaft, a first rotary driver and a limiting plate; the first mounting shaft is rotatably mounted on the first conveyor; the first rotary driver is fixedly arranged on the first conveyor, and the output end of the first rotary driver is in transmission connection with the first mounting shaft; the limiting plate is equipped with the equidistant distribution of several and on first installation axle, limiting plate and first installation axle fixed connection.

Preferably, the flushing device comprises a first sensor, a mounting cover, a water outlet pipe, a gas outlet pipe and a water collecting hopper; the mounting cover is fixedly mounted on the first conveyor; the first sensor is fixedly arranged on the mounting cover; the water outlet pipe is provided with a plurality of water outlets which are distributed in the mounting cover at equal intervals; the air outlet pipe is arranged beside the water outlet pipe and is provided with a plurality of air outlets; the water collecting bucket is arranged right below the mounting cover and is fixedly connected with the first conveyor.

Preferably, the positioning and translating device comprises a guide device, a second sensor, a stop device and a translating device; the guide device is fixedly arranged at the input end of the second conveyor; the second sensor is fixedly arranged on the second conveyor; the material blocking device is fixedly arranged at the lower end of the second conveyor, and the working end of the material blocking device penetrates through the second conveyor and extends upwards; the translation device is arranged below the second conveyor, and the working end of the translation device vertically extends upwards.

Preferably, the guide device comprises a first mounting frame, a second mounting shaft, a third mounting shaft, a guide frame, a linkage limiting block and a first linear driver; the first mounting frame is fixedly arranged below the second conveyor; the second mounting shaft is rotatably mounted on the first mounting frame; the third mounting shaft is arranged beside the second mounting shaft and is rotationally connected with the first mounting frame; the guide frame is fixedly arranged on the second mounting shaft; linkage stopper fixed mounting is on the third installation axle, and the lateral part of linkage stopper is equipped with the linkage lug, and the linkage lug is contradicted with the leading truck lateral part, and first linear actuator one end is rotated with first mounting bracket and is connected, and first linear actuator's output rotates with the leading truck and is connected.

Preferably, the material blocking device comprises a limiting rail, a lifting slide block, a second linear driver and a limiting column; the limiting rail is fixedly arranged below the second conveyor; the lifting slide block is slidably arranged inside the limit rail; the second linear driver is fixedly arranged on the limit rail, and the output end of the second linear driver penetrates through the limit rail and is fixedly connected with the lifting slide block; the limiting column is provided with a plurality of lifting slide blocks which are distributed at equal intervals.

Preferably, the translation device comprises a rack, a ball screw sliding table, a second mounting frame, a third linear driver, a mounting base and a first sucker; the frame is arranged below the second conveyor; the ball screw sliding table is fixedly arranged on the frame; the second mounting frame is fixedly mounted on the working end of the ball screw sliding table, the third linear driver is fixedly mounted on the second mounting frame, and the output end of the third linear driver vertically extends upwards; the mounting base is fixedly mounted at the output end of the third linear driver; the first sucking disc is provided with a plurality of evenly distributed on the installation base.

Preferably, the punching device comprises a first mounting rail, a fourth linear driver, a first mounting plate, a first pressing plate, a first guide pillar, a first spring and a punching pillar; the first mounting rail is arranged beside the positioning translation device and fixedly connected with the side part of the second conveyor, and a plurality of stamping holes are formed in the first mounting rail; the fourth linear driver is fixedly arranged on the first mounting rail; the first mounting plate is arranged inside the first mounting rail and fixedly connected with the output end of the fourth linear driver; the first abutting plate is arranged below the first mounting plate; the first guide pillar is provided with a plurality of symmetrical first pressing plates, one end of the first guide pillar is fixedly connected with the first pressing plates, and one end of the first guide pillar, far away from the first pressing plates, penetrates through the first mounting plate to extend in a sliding mode; the first spring is provided with a plurality of first guide posts which are uniformly distributed on the first guide post, one end of the first spring is abutted against the first abutting plate, and one end of the first spring, which is far away from the first abutting plate, is abutted against the first mounting plate; the punching press post is equipped with the several symmetry and sets up on first mounting panel, and the vertical downward punching press hole relative setting with first installation rail of work end of punching press post.

Preferably, the bending device comprises a second mounting rail, a second mounting plate, a second pressing plate, a second guide pillar, a second spring, a stamping block and a fifth linear driver; the second mounting rail is symmetrically arranged with the punching device, the second mounting rail is fixedly connected with the second conveyor, and a die-casting groove is arranged on the second mounting rail; the fifth linear driver is fixedly arranged on the second mounting rail; the second mounting plate is arranged inside the second mounting rail and is fixedly connected with the output end of the linear driver; the second pressing plate is arranged below the second mounting plate; the second guide pillar is provided with a plurality of second pressing plates which are symmetrically arranged on the second pressing plate, one end of the second guide pillar is fixedly connected with the second pressing plates, and one end of the second guide pillar, far away from the second pressing plates, penetrates through the second mounting plate and extends in a sliding mode; the first spring is provided with a plurality of first guide posts which are uniformly distributed on the second guide posts, one end of the second spring is abutted against the second abutting plate, and one end of the second spring, which is far away from the second abutting plate, is abutted against the second mounting plate; the stamping block is fixedly arranged on the second mounting plate, and the working end of the stamping block is linearly arranged downwards and opposite to the die-casting groove of the second mounting rail.

Preferably, the blanking device comprises a third mounting frame, a turning frame, a second sucker, a second rotary driver and a third sensor; the third mounting frame is fixedly arranged on the second conveyor; one end of the roll-over stand is rotatably arranged on the third mounting frame, the second suckers are symmetrically arranged on the roll-over stand, and the third sensor 9e is fixedly arranged on the roll-over stand; the second rotary driver is fixedly arranged on the third mounting frame, and the output end of the second rotary driver is in transmission connection with the roll-over stand.

Compared with the prior art, the invention has the beneficial effects that:

1. this application is preferred synchronous belt conveyor through first conveyer, put into synchronous belt conveyor's input with the CTP board, printing device is preferred to be the Heidelberg printing machine, synchronous belt conveyor cooperates stop device and carries the CTP board under the Heidelberg printing machine, heidelberg printing machine prints the CTP board, synchronous belt conveyor drives the CTP board and removes through washing unit is accomplished in the printing, washing unit washes the CTP board that prints, second conveyer is preferred to be cylinder conveyor, synchronous belt conveyor drives the CTP board that washes and carries to cylinder conveyor's input, the CTP board falls into on the location translation device, the location translation device fixes a position the CTP board, CTP board one end is carried inside the perforating device after the CTP board location is accomplished, the perforating device advances the location and punches with CTP board one end, the perforating translation device finishes the location translation device and carries the bending device inside with the CTP board opposite side, the bending device bends CTP board one end, the CTP board is bent after the completion, cylinder conveyor drives the CTP board horizontal migration that processes to the unloader, the CTP board unloading device takes off the CTP board and places the area of treating. Can effectively improve the production efficiency and the production quality.

2. This application is through putting into the input of hold-in range conveyer with the CTP board, and first rotary actuator is preferred to be the gyration cylinder, and it drives first installation hub rotation and drives the limiting plate simultaneously and pass the hold-in range conveyer vertical to turn into the cylinder, and the hold-in range conveyer drives the CTP board and removes and then stop the CTP board and remove to Heidelberg printing machine below limiting plate, can effectual messenger CTP board accuracy stop and print in Heidelberg printing machine below.

3. This application is accomplished hold-in range conveyer through the printing and is driven the CTP board and get into the installation cover, and first sensor is stroke sensor, and the outlet pipe goes out water through the several and washes the CTP board when stroke sensor senses the CTP board, and the sewage that produces when washing falls into the water collection fill, and the water collection fill guides sewage to pending processing region, washes the CTP board that finishes on the outlet duct, bloies to the CTP board through the several gas outlet on the outlet duct and makes the CTP board air-dry, effectively cleans the spot of printing fast.

4. This application is preferred electric putter through first linear actuator, electric putter promotes leading truck one end, the leading truck promotes the stopper perk that links simultaneously, make the leading truck other end perk and hold-in range conveyer's output butt joint, hold-in range conveyer drives the CTP board that washs and carries to drum conveyer, the CTP board falls on the leading truck, CTP board one end is contradicted on the stopper that links, electric putter drives the leading truck shrink, leading truck and linkage stopper return the normal position, with the CTP board device on drum conveyer. Effectively and smoothly guide the CTP plate to fall on the roller conveyor.

5. This application is preferred electric putter through second linear actuator, electric putter promotes the lifting slide and prolongs spacing rail and rise, lifting slide promotes spacing post and rises, spacing post passes cylinder conveyer, hold-in range conveyer drives the CTP board that washs and carries to cylinder conveyer, guiding device guide CTP board falls into on cylinder conveyer, the preferred stroke sensor of second sensor, stroke sensor senses on the CTP board falls into cylinder conveyer, cylinder conveyer drives the CTP board and removes, spacing post is effectual to block the CTP board and removes, make CTP board one end contradict and keep horizontal location on the linkage stopper.

6. This application drives the CTP board that bends through cylinder conveyer and removes the roll-over stand position, third sensor 9e is the stroke sensor, the CTP board is sensed to the stroke sensor, the preferred servo motor that is preferred to the second rotary drive ware, servo motor drives the roll-over stand and rotates, the second sucking disc adsorbs the CTP board and fixes when the roll-over stand contradicts with the CTP board and pastes, the roll-over stand rotates and drives the CTP board upset and place the area from cylinder conveyer with the CTP board and treat a position, the effectual manpower that saves, avoid personnel's contact to print good CTP board and influence printing quality.

Drawings

FIG. 1 is a perspective view of an embodiment;

FIG. 2 is a top view of the embodiment;

FIG. 3 is a perspective view of an embodiment stop device;

FIG. 4 is a side view of an embodiment flushing device;

FIG. 5 is a perspective view of an embodiment positioning and translating device;

FIG. 6 is a perspective view of a striker device of an embodiment;

FIG. 7 is a perspective view of an embodiment guide;

FIG. 8 is a perspective view of an embodiment translation device;

FIG. 9 is a perspective view of a punching device according to an embodiment;

FIG. 10 is a perspective view of an embodiment bending apparatus;

FIG. 11 is a perspective view of the blanking apparatus of the embodiment.

The reference numbers in the figures are:

1-a first conveyor;

2-a second conveyor;

3-a printing device;

4-a limiting device; 4 a-first mounting axis; 4 b-a first rotary drive; 4 c-a limiting plate;

5-a washing device; 5 a-a water collecting bucket; 5 b-mounting a cover; 5 c-a water outlet pipe; 5 d-an air outlet pipe;

6-positioning a translation device; 6 a-a guide device; 6a 1-a first mounting frame; 6a 2-a second mounting shaft; 6a 3-a third mounting shaft; 6a 4-guide frame; 6a 5-linkage limiting block; 6a 6-first linear driver; 6 b-a second sensor; 6 c-a material blocking device; 6c 1-a limit rail; 6c 2-lifting slide block; 6c 3-second linear drive; 6c 4-a spacing post; 6 d-a translation device; 6d 1-a frame; 6d 2-ball screw sliding table; 6d 3-a second mount; 6d 4-third linear drive; 6d 5-mounting a base; 6d 6-first suction cup;

7-a perforating device; 7 a-a first mounting rail; 7 b-a fourth linear drive; 7 c-a first mounting plate; 7 d-a first pressing plate; 7 e-a first guide post; 7 f-a first spring; 7 g-punching the column;

8-bending device; 8 a-a second mounting rail; 8 b-a second mounting plate; 8 c-a second pressing plate; 8 d-a second guide post; 8 e-a second spring; 8 f-punching the block; 8 g-a fifth linear drive;

9-a blanking device; 9 a-a third mounting frame; 9 b-a roll-over stand; 9 c-a second suction cup; 9 d-a second rotary drive; 9 e-a third sensor.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1 and 2:

a production line of a CTP plate comprises a first conveyor 1, a second conveyor 2, a printing device 3, a limiting device 4, a flushing device 5, a positioning translation device 6, a punching device 7, a bending device 8 and a blanking device 9; the input end of the second conveyor 2 is arranged at the output end of the first linear conveyor; the printing device 3 is fixedly arranged on the first conveyor 1; the limiting device 4 is arranged below the printing device 3, the limiting device 4 is fixedly connected with the first conveyor 1, the flushing device 5 is arranged on the first conveyor 1, and the flushing device 5 is fixedly connected with the first conveyor 1; the positioning translation device 6 is fixedly arranged at the input end of the second conveyor 2; the perforating device 7 is arranged at the side of the positioning and translation device 6, and the perforating device 7 is fixedly connected with the second conveyor 2; the bending device 8 and the punching device 7 are symmetrically arranged, and the bending device 8 is fixedly connected with the second conveyor 2; the blanking device 9 is fixedly arranged at the output end of the second conveyor 2.

Based on the above-mentioned embodiment, first conveyer 1 is preferably the hold-in range conveyer, put the CTP board into the input of hold-in range conveyer, printing device 3 is preferably Heidelberg printing machine 3, hold-in range conveyer cooperation stop device 4 carries the CTP board under Heidelberg printing machine 3, heidelberg printing machine 3 prints the CTP board, the hold-in range conveyer is accomplished in the printing drives the CTP board and removes through washing unit 5, washing unit 5 washes the CTP board that prints, second conveyer 2 is preferably the cylinder conveyer, the hold-in range conveyer drives the CTP board that washes to cylinder conveyer's input transport, the CTP board falls into location translation device 6, location translation device 6 fixes a position the CTP board, carry CTP board one end inside perforating device 7 after the CTP board location is accomplished, perforating device 7 carries out the location and punches with CTP board one end, location translation device 6 finishes punching and carries CTP board opposite side inside bending device 8, bending device 8 bends CTP board one end, after the CTP board bending is accomplished, the CTP board that cylinder conveyer drives the good CTP board that processes and moves horizontally and moves on perforating device 9, the blanking area of treating is put down the unloading area. Can effectively improve the production efficiency and the production quality.

In order to solve the technical problem of accurate positioning and conveying of the CTP plate to the position below the printing device 3, as shown in fig. 3:

the limiting device 4 comprises a first mounting shaft 4a, a first rotary driver 4b and a limiting plate 4c; the first mounting shaft 4a is rotatably mounted on the first conveyor 1; the first rotary driver 4b is fixedly arranged on the first conveyor 1, and the output end of the first rotary driver 4b is in transmission connection with the first mounting shaft 4 a; the limiting plate 4c is provided with a plurality of first installation shafts 4a which are distributed at equal intervals, and the limiting plate 4c is fixedly connected with the first installation shafts 4 a.

Based on above-mentioned embodiment, put into synchronous belt conveyor's input with the CTP board, the preferred gyration cylinder of first rotary actuator 4b, it is vertical that the gyration cylinder drives first installation axle 4a and rotates and drive limiting plate 4c simultaneously and pass synchronous belt conveyor, and synchronous belt conveyor drives the CTP board and removes 3 below limiting plate 4c of Heidelberg printing machine and then block the CTP board and remove, can effectually make the CTP board accuracy stop printing in 3 below of Heidelberg printing machine.

In order to solve the technical problem of washing the printed CTP plate, as shown in FIG. 4:

the flushing device 5 comprises a first sensor, a mounting cover 5b, a water outlet pipe 5c, a gas outlet pipe 5d and a water collecting hopper 5a; the mounting cover 5b is fixedly mounted on the first conveyor 1; the first sensor is fixedly arranged on the mounting cover 5 b; the water outlet pipe 5c is provided with a plurality of water outlets which are distributed in the mounting cover 5b at equal intervals; the air outlet pipe 5d is arranged beside the water outlet pipe 5c, and a plurality of air outlets are arranged on the air outlet pipe 5 d; the water collecting hopper 5a is arranged right below the mounting cover 5b, and the water collecting hopper 5a is fixedly connected with the first conveyor 1.

Based on above-mentioned embodiment, synchronous belt conveyor drives the CTP board and gets into installation cover 5b is accomplished in the printing, and first sensor is stroke sensor, and outlet pipe 5c washes the CTP board through several play water when stroke sensor senses the CTP board, and the sewage that produces during washing falls into water collection fill 5a, and water collection fill 5a guides sewage to the pending region, washes the CTP board that finishes on through outlet duct 5d, bloies to the CTP board through several gas outlets on the outlet duct 5d and makes the CTP board air-dry, effectively cleans the spot of printing fast.

In order to solve the technical problem of positioning and horizontal movement of the CTP plate on the roller conveyor, as shown in fig. 5:

the positioning translation device 6 comprises a guide device 6a, a second sensor 6b, a stop device 6c and a translation device 6d; the guide device 6a is fixedly arranged at the input end of the second conveyor 2; the second sensor 6b is fixedly arranged on the second conveyor 2; the material blocking device 6c is fixedly arranged at the lower end of the second conveyor 2, and the working end of the material blocking device 6c penetrates through the second conveyor 2 and extends upwards; the translation device 6d is arranged below the second conveyor 2, the working end of the translation device 6d extending vertically upwards.

Based on above-mentioned embodiment, hold-in range conveyer drives the CTP board that washs and carries to cylinder conveyer, guiding device 6a guides the CTP board to fall into on the cylinder conveyer, the preferred stroke sensor of second sensor 6b, stroke sensor senses the CTP board and falls into on the cylinder conveyer, cylinder conveyer drives the CTP board and removes, dam device 6c blocks the CTP board and removes, it keeps parallel to make CTP board one side contradict with dam device 6c, translation device 6d promotes the CTP board and gets into perforating device 7, perforating device 7 punches CTP board one side, the CTP board finishes punching, translation device 6d pushes the CTP board again and bends to CTP board one end inside bending device 8, finish bending, dam device 6c stops the dam, cylinder conveyer drives the CTP board that the processing is good and carries on unloader 9.

In order to solve the technical problem that the smooth CTP plate is guided from the synchronous belt conveyor to the roller conveyor, as shown in FIG. 7:

the guide device 6a comprises a first mounting frame 6a1, a second mounting shaft 6a2, a third mounting shaft 6a3, a guide frame 6a4, a linkage limiting block 6a5 and a first linear driver 6a6; the first mounting frame 6a1 is fixedly mounted below the second conveyor 2; the second mounting shaft 6a2 is rotatably mounted on the first mounting frame 6a 1; the third mounting shaft 6a3 is arranged beside the second mounting shaft 6a2, and the third mounting shaft 6a3 is rotatably connected with the first mounting frame 6a 1; the guide frame 6a4 is fixedly arranged on the second mounting shaft 6a 2; linkage stopper 6a5 fixed mounting is on third installation axle 6a3, and linkage stopper 6a 5's lateral part is equipped with the linkage lug, and the linkage lug is contradicted with guide frame 6a4 lateral part, and first linear actuator 6a6 one end is rotated with first mounting bracket 6a1 and is connected, and the output of first linear actuator 6a6 rotates with guide frame 6a4 and is connected.

Based on the above embodiment, the first linear actuator 6a6 is preferably an electric push rod, the electric push rod pushes one end of the guide frame 6a4, the guide frame 6a4 simultaneously pushes the linkage limiting block 6a5 to tilt, so that the other end of the guide frame 6a4 tilts to be in butt joint with the output end of the synchronous belt conveyor, the synchronous belt conveyor drives the cleaned CTP plate to be conveyed to the roller conveyor, the CTP plate falls on the guide frame 6a4, one end of the CTP plate abuts against the linkage limiting block 6a5, the electric push rod drives the guide frame 6a4 to contract, the guide frame 6a4 and the linkage limiting block 6a5 return to the original position, and the CTP plate is mounted on the roller conveyor. Effectively and smoothly guide the CTP plate to fall on the roller conveyor.

In order to solve the technical problem of positioning the CTP plate in cooperation with the roller conveyor, as shown in fig. 6:

the material blocking device 6c comprises a limiting rail 6c1, a lifting slide block 6c2, a second linear driver 6c3 and a limiting column 6c4; the limiting rail 6c1 is fixedly arranged below the second conveyor 2; the lifting slide block 6c2 is slidably arranged in the limiting rail 6c 1; the second linear driver 6c3 is fixedly arranged on the limit rail 6c1, and the output end of the second linear driver 6c3 penetrates through the limit rail 6c1 to be fixedly connected with the lifting slide block 6c 2; the limiting columns 6c4 are provided with a plurality of lifting slide blocks 6c2 which are distributed at equal intervals.

Based on the above-mentioned embodiment, second linear actuator 6c3 is preferably electric putter, electric putter promotes lift slider 6c2 and prolongs spacing rail 6c1 and rise, lift slider 6c2 promotes spacing post 6c4 and rises, spacing post 6c4 passes the roller conveyor, the hold-in range conveyer drives the CTP board that washs and carries to the roller conveyor, guiding device 6a guides the CTP board to fall into on the roller conveyor, second sensor 6b is preferably the stroke sensor, the stroke sensor senses the CTP board and falls into on the roller conveyor, the roller conveyor drives the CTP board and removes, spacing post 6c4 is effectual to block the CTP board and removes, make CTP board one end contradict and keep horizontal location on linkage stopper 6a 5.

In order to solve the technical problem of horizontal movement of the CTP plate on the roller conveyor, as shown in fig. 8:

the translation device 6d comprises a rack 6d1, a ball screw sliding table 6d2, a second mounting frame 6d3, a third linear driver 6d4, a mounting base 6d5 and a first sucking disc 6d6; the frame 6d1 is disposed below the second conveyor 2; the ball screw sliding table 6d2 is fixedly arranged on the frame 6d 1; the second mounting frame 6d3 is fixedly mounted at the working end of the ball screw sliding table 6d2, the third linear actuator 6d4 is fixedly mounted on the second mounting frame 6d3, and the output end of the third linear actuator 6d4 vertically extends upwards; the mounting base 6d5 is fixedly mounted at the output end of the third linear driver 6d 4; the first suction disc 6d6 is provided with a plurality of first suction discs which are evenly distributed on the mounting base 6d 5.

Based on the above-mentioned embodiment, hold-in range conveyer drives the CTP board that washs and carries to roller conveyer, guiding device 6a guides the CTP board to fall into roller conveyer on, the preferred stroke sensor of second sensor 6b, stroke sensor senses the CTP board and falls into roller conveyer on, roller conveyer drives the CTP board and removes, dam device 6c blocks the CTP board and removes, make CTP board one side contradict with dam device 6c and keep parallel, third linear actuator 6d4 is preferred electric putter, electric putter promotes installation base 6d5 and rises, installation base 6d5 promotes on the first sucking disc 6d6, first sucking disc 6d6 inhales and contradicts with the CTP board, first sucking disc 6d and inhales and initiatively live the CTP board, ball screw slip table 6d2 drives the horizontal removal of the CTP board that adsorbs. The CTP plate is effectively driven to horizontally move on the roller conveyor.

In order to solve the technical problem of CTP plate punching, as shown in fig. 9:

the punching device 7 comprises a first mounting rail 7a, a fourth linear driver 7b, a first mounting plate 7c, a first pressing plate 7d, a first guide post 7e, a first spring 7f and a punching post 7g; the first mounting rail 7a is arranged beside the positioning translation device 6, the first mounting rail 7a is fixedly connected with the side part of the second conveyor 2, and a plurality of punching holes are formed in the first mounting rail 7 a; the fourth linear driver 7b is fixedly mounted on the first mounting rail 7 a; the first mounting plate 7c is arranged inside the first mounting rail 7a, and the first mounting plate 7c is fixedly connected with the output end of the fourth linear driver 7 b; the first pressing plate 7d is arranged below the first mounting plate 7 c; the first guide pillar 7e is provided with a plurality of symmetrical first pressing plates 7d, one end of each first guide pillar 7e is fixedly connected with the corresponding first pressing plate 7d, and one end, far away from the corresponding first pressing plate 7d, of each first guide pillar 7e penetrates through the corresponding first mounting plate 7c to extend in a sliding mode; the first spring 7f is provided with a plurality of first guide posts 7e which are uniformly distributed on the first guide posts 7e, one end of the first spring 7f is abutted against the first abutting plate 7d, and one end of the first spring 7f, which is far away from the first abutting plate 7d, is abutted against the first mounting plate 7 c; the punching column 7g is provided with a plurality of symmetrical holes arranged on the first mounting plate 7c, and the working end of the punching column 7g is vertically arranged downwards and opposite to the punching hole of the first mounting rail 7 a.

Based on the above embodiment, the positioning and translating device 6 positions the CTP plate, after the CTP plate is positioned, one end of the CTP plate is conveyed to the inside of the first mounting rail 7a, the CTP plate abuts against the inside of the first mounting rail 7a, the fourth linear actuator 7b is preferably a hydraulic push rod, the hydraulic push rod drives the first mounting plate 7c to descend, the first mounting plate 7c pushes the first pressing plate 7d to elastically descend through the cooperation of the first guide pillar 7e and the first spring 7f, the first pressing plate 7d abuts against the CTP plate, the CTP plate is pressed and fixed, the first mounting plate 7c continues to press the pressing pillar 7g to press the CTP plate, and the CTP plate can be effectively punched through the pressing hole formed by the pressing pillar 7g in cooperation with the first mounting rail 7 a.

In order to solve the technical problem of bending the CTP plate, as shown in fig. 10:

the bending device 8 comprises a second mounting rail 8a, a second mounting plate 8b, a second pressing plate 8c, a second guide pillar 8d, a second spring 8e, a stamping block 8f and a fifth linear driver 8g; the second mounting rail 8a is symmetrically arranged with the punching device 7, the second mounting rail 8a is fixedly connected with the second conveyor 2, and a die-casting groove is arranged on the second mounting rail 8 a; the fifth linear driver 8g is fixedly mounted on the second mounting rail 8 a; the second mounting plate 8b is arranged inside the second mounting rail 8a, and the second mounting plate 8b is fixedly connected with the output end of the linear driver; the second pressing plate 8c is arranged below the second mounting plate 8 b; the second guide pillar 8d is provided with a plurality of second pressing plates 8c which are symmetrically arranged on the second pressing plates 8c, one end of each second guide pillar 8d is fixedly connected with the second pressing plate 8c, and one end, far away from the second pressing plate 8c, of each second guide pillar 8d penetrates through the second mounting plate 8b to extend in a sliding mode; the first spring 7f is provided with a plurality of first guide posts 8d which are uniformly distributed on the second guide posts, one end of the second spring 8e is abutted against the second abutting plate 8c, and one end of the second spring 8e, which is far away from the second abutting plate 8c, is abutted against the second mounting plate 8 b; the stamping block 8f is fixedly arranged on the second mounting plate 8b, and the working end of the stamping block 8f is arranged opposite to the die-casting groove of the second mounting rail 8a in a downward straight line manner.

Based on the above embodiment, the synchronous belt conveyor drives the washed CTP plate to be conveyed to the input end of the roller conveyor, the CTP plate falls onto the positioning and translation device 6, the positioning and translation device 6 positions the CTP plate, after the CTP plate is positioned, one end of the CTP plate is conveyed into the punching device 7, the punching device 7 positions and punches one end of the CTP plate, the CTP plate is punched, the positioning and translation device 6 conveys the other end of the CTP plate into the second mounting rail 8a, the CTP plate is abutted against the second mounting rail 8a, the fifth linear actuator 8g is preferably a hydraulic push rod, the hydraulic push rod drives the second mounting plate 8b to press down, the second mounting plate 8b presses down through cooperation of the second guide pillar 8d and the second spring 8e to push the second abutting plate 8c to be abutted against the CTP plate, the CTP plate is abutted against the second abutting plate 8c to be fixed, the hydraulic push rod continues to push the second mounting plate 8b to press down, the second mounting plate 8b pushes down while pressing down the punching block 8f to press down, the CTP plate to be extruded into the die-casting groove of the second mounting rail 8a CTP plate, and one end of the CTP plate is effectively bent and processed.

In order to solve the technical problem of automatic blanking, as shown in fig. 11:

the blanking device 9 comprises a third mounting frame 9a, a turning frame 9b, a second sucker 9c, a second rotary driver 9d and a third sensor 9e; the third mounting frame 9a is fixedly mounted on the second conveyor 2; one end of the turning frame 9b is rotatably arranged on the third mounting frame 9a, the second suction cups 9c are symmetrically arranged on the turning frame 9b, and the third sensor 9e is fixedly arranged on the turning frame 9 b; the second rotary driver 9d is fixedly arranged on the third mounting frame 9a, and the output end of the second rotary driver 9d is in transmission connection with the roll-over stand 9 b.

Based on above-mentioned embodiment, roller conveyer drives the CTP board that bends and removes roll-over stand 9b position, third sensor 9e is travel sensor, the CTP board is sensed to travel sensor, second rotary actuator 9d is preferably servo motor, servo motor drives roll-over stand 9b and rotates, second sucking disc 9c adsorbs the CTP board and fixes when roll-over stand 9b contradicts with the CTP board and pastes, roll-over stand 9b rotates and drives the CTP board upset and place the area with the CTP board from roller conveyer and wait the position, the effectual manpower that saves avoids personnel to contact the CTP board that prints to influence printing quality.

This application is preferred to hold-in range conveyer through first conveyer 1, put into the input of hold-in range conveyer with the CTP board, printing device 3 is preferred to Heidelberg printing machine 3, hold-in range conveyer cooperation stop device 4 carries the CTP board under Heidelberg printing machine 3, heidelberg printing machine 3 prints the CTP board, the hold-in range conveyer drives the CTP board and removes through washing unit 5 in the printing, washing unit 5 washes the CTP board that prints, second conveyer 2 is preferred to cylinder conveyer, hold-in range conveyer drives the CTP board that washes to cylinder conveyer's input transport, the CTP board falls into location translation device 6, location translation device 6 fixes a position the CTP board, CTP board one end is carried inside perforating device 7 after the CTP board location is accomplished, perforating device 7 carries out the location punching with perforating to one end of CTP board, CTP board location translation device 6 carries the CTP board opposite side inside bending device 8, bending device 8 bends one end of CTP board, after the CTP board bending is accomplished, cylinder conveyer drives the CTP board that processes to move to well on perforating device 9, unloading device 9 places under the CTP board and treats the processing region. Can effectively improve the production efficiency and the production quality.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A production line of CTP plates is characterized by comprising a first conveyor (1), a second conveyor (2), a printing device (3), a limiting device (4), a flushing device (5), a positioning and translation device (6), a punching device (7), a bending device (8) and a blanking device (9); the input end of the second conveyor (2) is arranged at the output end of the first linear conveyor; the printing device (3) is fixedly arranged on the first conveyor (1); the limiting device (4) is arranged below the printing device (3), the limiting device (4) is fixedly connected with the first conveyor (1), the flushing device (5) is arranged on the first conveyor (1), and the flushing device (5) is fixedly connected with the first conveyor (1); the positioning translation device (6) is fixedly arranged at the input end of the second conveyor (2); the punching device (7) is arranged beside the positioning translation device (6), and the punching device (7) is fixedly connected with the second conveyor (2); the bending device (8) and the punching device (7) are symmetrically arranged, and the bending device (8) is fixedly connected with the second conveyor (2); the blanking device (9) is fixedly arranged at the output end of the second conveyor (2).

2. The CTP plate production line of claim 1, wherein the limiting device (4) comprises a first mounting shaft (4 a), a first rotary driver (4 b) and a limiting plate (4 c); the first mounting shaft (4 a) is rotatably mounted on the first conveyor (1); the first rotary driver (4 b) is fixedly arranged on the first conveyor (1), and the output end of the first rotary driver (4 b) is in transmission connection with the first mounting shaft (4 a); the limiting plate (4 c) is provided with a plurality of equally spaced distribution on the first mounting shaft (4 a), and the limiting plate (4 c) is fixedly connected with the first mounting shaft (4 a).

3. The CTP plate production line of claim 1, wherein the flushing device (5) comprises a first sensor, a mounting cover (5 b), a water outlet pipe (5 c), a gas outlet pipe (5 d) and a water collecting hopper (5 a); the mounting cover (5 b) is fixedly mounted on the first conveyor (1); the first sensor is fixedly arranged on the mounting cover (5 b); the water outlet pipe (5 c) is provided with a plurality of water outlets which are distributed in the mounting cover (5 b) at equal intervals; the air outlet pipe (5 d) is arranged beside the water outlet pipe (5 c), and a plurality of air outlets are arranged on the air outlet pipe (5 d); the water collecting bucket (5 a) is arranged right below the mounting cover (5 b), and the water collecting bucket (5 a) is fixedly connected with the first conveyor (1).

4. The CTP plate production line of claim 1, wherein the positioning and translating device (6) comprises a guide device (6 a), a second sensor (6 b), a stop device (6 c) and a translating device (6 d); the guide device (6 a) is fixedly arranged at the input end of the second conveyor (2); the second sensor (6 b) is fixedly arranged on the second conveyor (2); the material blocking device (6 c) is fixedly arranged at the lower end of the second conveyor (2), and the working end of the material blocking device (6 c) penetrates through the second conveyor (2) to extend upwards; the translation device (6 d) is arranged below the second conveyor (2), and the working end of the translation device (6 d) vertically extends upwards.

5. The CTP plate production line of claim 4, wherein the guiding device (6 a) comprises a first mounting frame (6 a 1), a second mounting shaft (6 a 2), a third mounting shaft (6 a 3), a guiding frame (6 a 4), a linkage limiting block (6 a 5) and a first linear driver (6 a 6); the first mounting frame (6 a 1) is fixedly arranged below the second conveyor (2); the second mounting shaft (6 a 2) is rotatably mounted on the first mounting frame (6 a 1); the third mounting shaft (6 a 3) is arranged beside the second mounting shaft (6 a 2), and the third mounting shaft (6 a 3) is rotatably connected with the first mounting frame (6 a 1); the guide frame (6 a 4) is fixedly arranged on the second mounting shaft (6 a 2); linkage stopper (6 a 5) fixed mounting is on third installation axle (6 a 3), and the lateral part of linkage stopper (6 a 5) is equipped with the linkage lug, and the linkage lug is contradicted with leading truck (6 a 4) lateral part, and first linear actuator (6 a 6) one end is rotated with first mounting bracket (6 a 1) and is connected, and the output and the leading truck (6 a 4) of first linear actuator (6 a 6) are rotated and are connected.

6. The CTP plate production line of claim 4, wherein the material blocking device (6 c) comprises a limit rail (6 c 1), a lifting slide block (6 c 2), a second linear driver (6 c 3) and a limit column (6 c 4); the limiting rail (6 c 1) is fixedly arranged below the second conveyor (2); the lifting slide block (6 c 2) is slidably arranged in the limiting rail (6 c 1); the second linear driver (6 c 3) is fixedly arranged on the limit rail (6 c 1), and the output end of the second linear driver (6 c 3) penetrates through the limit rail (6 c 1) to be fixedly connected with the lifting slide block (6 c 2); the limit columns (6 c 4) are provided with a plurality of equal-spacing distribution on the lifting slide block (6 c 2).

7. The CTP plate production line of claim 4, wherein the translation device (6 d) comprises a frame (6 d 1), a ball screw sliding table (6 d 2), a second mounting frame (6 d 3), a third linear actuator (6 d 4), a mounting base (6 d 5) and a first suction cup (6 d 6); the frame (6 d 1) is arranged below the second conveyor (2); the ball screw sliding table (6 d 2) is fixedly arranged on the rack (6 d 1); the second mounting frame (6 d 3) is fixedly arranged at the working end of the ball screw sliding table (6 d 2), the third linear driver (6 d 4) is fixedly arranged on the second mounting frame (6 d 3), and the output end of the third linear driver (6 d 4) vertically extends upwards; the mounting base (6 d 5) is fixedly mounted at the output end of the third linear driver (6 d 4); the first suction disc (6 d 6) is provided with a plurality of suction discs which are uniformly distributed on the mounting base (6 d 5).

8. The CTP plate production line of claim 1, wherein the punching device (7) comprises a first mounting rail (7 a), a fourth linear actuator (7 b), a first mounting plate (7 c), a first pressing plate (7 d), a first guide post (7 e), a first spring (7 f) and a punching post (7 g); the first mounting rail (7 a) is arranged beside the positioning translation device (6), the first mounting rail (7 a) is fixedly connected with the side part of the second conveyor (2), and a plurality of stamping holes are formed in the first mounting rail (7 a); the fourth linear driver (7 b) is fixedly arranged on the first mounting rail (7 a); the first mounting plate (7 c) is arranged inside the first mounting rail (7 a), and the first mounting plate (7 c) is fixedly connected with the output end of the fourth linear driver (7 b); the first pressing plate (7 d) is arranged below the first mounting plate (7 c); the first guide pillar (7 e) is provided with a plurality of symmetrical parts which are arranged on the first pressing plate (7 d), one end of the first guide pillar (7 e) is fixedly connected with the first pressing plate (7 d), and one end, far away from the first pressing plate (7 d), of the first guide pillar (7 e) penetrates through the first mounting plate (7 c) to extend in a sliding manner; the first spring (7 f) is provided with a plurality of first guide posts (7 e) which are uniformly distributed, one end of the first spring (7 f) is abutted against the first abutting plate (7 d), and one end of the first spring (7 f), which is far away from the first abutting plate (7 d), is abutted against the first mounting plate (7 c); punching press post (7 g) are equipped with the several symmetry and set up on first mounting panel (7 c), and the work end of punching press post (7 g) is vertical downwards to be set up with the punching press hole of first installation rail (7 a) relatively.

9. The CTP plate production line of claim 1, wherein the bending device (8) comprises a second mounting rail (8 a), a second mounting plate (8 b), a second pressing plate (8 c), a second guide post (8 d), a second spring (8 e), a punching block (8 f) and a fifth linear driver (8 g); the second mounting rail (8 a) is symmetrically arranged with the punching device (7), the second mounting rail (8 a) is fixedly connected with the second conveyor (2), and a die-casting groove is arranged on the second mounting rail (8 a); the fifth linear driver (8 g) is fixedly arranged on the second mounting rail (8 a); the second mounting plate (8 b) is arranged inside the second mounting rail (8 a), and the second mounting plate (8 b) is fixedly connected with the output end of the linear driver; the second pressing plate (8 c) is arranged below the second mounting plate (8 b); the second guide pillar (8 d) is provided with a plurality of symmetrical second pressing plates (8 c), one end of each second guide pillar (8 d) is fixedly connected with the corresponding second pressing plate (8 c), and one end, far away from the corresponding second pressing plate (8 c), of each second guide pillar (8 d) penetrates through the corresponding second mounting plate (8 b) to extend in a sliding mode; the first spring (7 f) is provided with a plurality of first guide posts (8 d) which are uniformly distributed, one end of the second spring (8 e) is abutted against the second abutting plate (8 c), and one end of the second spring (8 e) far away from the second abutting plate (8 c) is abutted against the second mounting plate (8 b); the stamping block (8 f) is fixedly arranged on the second mounting plate (8 b), and the working end of the stamping block (8 f) is arranged opposite to the die-casting groove of the second mounting rail (8 a) in a downward straight line manner.

10. The CTP plate production line of claim 1, wherein the blanking device (9) comprises a third mounting frame (9 a), a roll-over stand (9 b), a second suction cup (9 c), a second rotary driver (9 d) and a third sensor (9 e); the third mounting rack (9 a) is fixedly arranged on the second conveyor (2); one end of the turning frame (9 b) is rotatably arranged on the third mounting frame (9 a), the second sucker (9 c) is provided with a plurality of symmetrical suckers which are symmetrically arranged on the turning frame (9 b), and the third sensor (9 e) is fixedly arranged on the turning frame (9 b); the second rotary driver (9 d) is fixedly arranged on the third mounting frame (9 a), and the output end of the second rotary driver (9 d) is in transmission connection with the roll-over frame (9 b).

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