CN210480300U - Corrugated container board upset system of feeding - Google Patents

Abstract

The utility model provides a corrugated container board system of going up in upset, it is including installing cardboard upset portion and the cardboard conveying department in proper order in frame (1), cardboard upset portion includes frame (2) and frame promotion tilting mechanism, frame (2) bottom one end horizontal direction is equipped with scalable chain fork (3), frame (2) vertical direction is equipped with first belt conveyor (4) respectively, keep off material frame (5) and be used for controlling fender material frame (5) pivoted and keep off material frame drive arrangement, cardboard conveying department is including installing second belt conveyor (11) on support arm (10) in proper order, third belt conveyor (12), flexible belt conveyor (13), scaly branch paper device and support arm jacking device, the utility model discloses the advantage is: the frame lifting device and the frame overturning device are matched to lift and overturn the paperboard, so that the overturning device can rotate at any angle of 0-120 degrees without interference, the conveying speed is adjusted by independently controlling the multi-stage belt, and the waiting time of the overturning part for paper feeding is shortened.

Description

Corrugated container board upset system of feeding

Technical Field

The utility model relates to a corrugated paper printing machine goes up paper and counts and ties up the technical field of going up paper, concretely relates to corrugated container board system of going up in upset.

Background

At present, when printing machine or commodity circulation line are at work, need incessant form advancing to printing machine or commodity circulation line, current last paper mechanism is not smooth enough at the in-process to cardboard heap upset and transport, and the card phenomenon of dying appears easily in the upset in-process, and the in-process of carrying, single belt feeder appear piling up or the phenomenon of cutting off easily when cooperating with tilting mechanism, influence the smoothness nature of going up paper.

SUMMERY OF THE UTILITY MODEL

The utility model aims at present, when printing machine or commodity circulation line are at work, need incessant form advance to printing machine or commodity circulation line, current last paper mechanism is piling upset and the in-process of carrying smooth inadequately to the cardboard, the dead phenomenon of card appears easily in the upset in-process, the in-process of carrying, single belt feeder appear piling up easily or cutoff phenomenon with tilting mechanism complex in, influence the smoothness of going up paper not enough, and provide a corrugated container board upset system of going up paper.

The utility model discloses a cardboard upset portion and cardboard conveying part installed in the frame in proper order, cardboard upset portion includes frame and frame promotion tilting mechanism, frame bottom one end horizontal direction is equipped with scalable chain stay, the frame vertical direction is equipped with first band conveyer respectively, the stock stop and be used for controlling stock stop pivoted stock stop drive arrangement, the both sides of frame are equipped with vertical spout respectively, bottom one end of frame is equipped with first pivot, the both ends of first pivot are located the vertical spout that the frame both sides correspond respectively, frame promotion tilting mechanism includes a pair of frame hoisting device that is used for controlling the frame to reciprocate in the frame and is used for controlling the frame to wind the frame turning device of first pivot rotation;

the paper board conveying part comprises a second belt conveyor, a third belt conveyor, a telescopic belt conveyor, a scaly paper separating device and a support arm jacking device which are sequentially arranged on a support arm, one end of the support arm is hinged on the frame, the other end of the support arm is supported on the ground through the support arm jacking device, the second belt conveyor and the third belt conveyor are positioned on the same horizontal plane, the telescopic belt conveyor is positioned below the discharge end of the third belt conveyor, the discharge ends of the third belt conveyor and the telescopic belt conveyor are respectively provided with a paper board end part aligning device, the scaly paper separating device comprises an adjustable support frame, a liftable front baffle and a pair of paper board side edge aligning devices, the adjustable support frame is arranged on the support arm and positioned above the telescopic belt conveyor, the liftable front baffle is arranged on the adjustable support frame and forms a paper passing channel with the telescopic belt conveyor, and the pair of paper board side edge aligning devices are respectively and symmetrically arranged on the adjustable, and are positioned on two sides of the liftable front baffle.

The telescopic tooth fork comprises a second rotating shaft and a second rotating shaft driving motor which are installed on the tooth fork, first tooth tracks are arranged on two sides of the frame respectively, walking gears which are matched with the first tooth tracks for use are arranged at two ends of the second rotating shaft respectively, clamping wheels which are matched with the walking gears for clamping the first tooth tracks are arranged on two sides of the tooth fork respectively, an upper group of tooth fork limiting wheels and a lower group of tooth fork limiting wheels are arranged on the frame, and transmission gears which are matched with each other for use are arranged on the second rotating shaft and a power output shaft of the second rotating shaft driving motor respectively.

The material blocking frame driving device comprises a pair of material blocking frame driving cylinders, one end of each material blocking frame is hinged to the frame, a third rotating shaft is arranged on the frame, a first crank for controlling the material blocking frame to swing is arranged on the third rotating shaft, and the pair of material blocking frame driving cylinders are hinged to the two sides of the frame through cylinder seats respectively and drive the third rotating shaft to rotate.

A pair of frame hoisting device is symmetry respectively and installs in the frame both sides, and frame hoisting device includes sprocket case driving motor, sprocket case and balancing weight, and the both sides of frame are equipped with vertical guide rail respectively, and the balancing weight is installed on the slider of vertical guide rail, and chain one end is connected on the balancing weight, and each sprocket and first pivot connection that the sprocket case was walked around to the chain other end, and sprocket case driving motor drives the sprocket case and rotates.

The frame turnover device comprises a pair of frame turnover motors symmetrically mounted on the frame, a fourth rotating shaft is arranged on the frame, transmission gears matched with each other are respectively arranged at two ends of the fourth rotating shaft and on a power output shaft of the frame turnover motor, a fifth rotating shaft is arranged at one end of the top of the frame, a pair of pull rods are arranged on the fifth rotating shaft, a pair of third cranks are arranged on the fourth rotating shaft, and the third cranks are hinged to the corresponding pull rods.

The paper board end part aligning device comprises an aligning plate and an aligning plate control cylinder, the aligning plate is respectively installed on the discharge end racks of the corresponding third belt conveyor and the corresponding telescopic belt conveyor through the aligning plate control cylinder, and a pair of guide rod and guide sleeve assemblies for controlling the balance of the aligning plate are respectively arranged on the discharge end racks of the third belt conveyor and the telescopic belt conveyor; the supporting arm jacking device comprises a pair of worm and gear lifters arranged on the base, and ejector rods of the worm and gear lifters are hinged on the supporting arms.

Two ends of the adjustable support frame are respectively movably mounted on the support arms through slide rails, a sixth rotating shaft and a sixth rotating shaft driving motor are arranged on the adjustable support frame, the sixth rotating shaft driving motor drives the sixth rotating shaft to rotate, second tooth rails are respectively arranged on two sides of the support arms, and walking gears matched with the second tooth rails for use are respectively arranged at two ends of the sixth rotating shaft; the liftable front baffle is movably arranged on the adjustable support frame through a pair of slide rails, an electric screw rod lifter is arranged on the adjustable support frame, and the electric screw rod lifter drives the liftable front baffle to move up and down on the adjustable support frame; the paperboard side edge patting device comprises a side baffle, a side baffle driving cylinder and an electric sliding table, the electric sliding table is installed on the adjustable supporting frame, and the side baffle drives the cylinder through the side baffle and is installed on a sliding block of the electric sliding table.

The telescopic tooth fork is provided with a vacuum pump, the top of each tooth fork of the telescopic tooth fork is respectively provided with an air inlet, the bottom of each tooth fork of the telescopic tooth fork is provided with an air outlet, and the vacuum pump is respectively communicated with the air outlet of each tooth fork through a pipeline.

The waste material rack is arranged below the second belt conveyor, the top of the waste material rack is an inclined plane, and a stop block is arranged on the waste material rack at the lower end of the inclined plane.

The utility model has the advantages that: the frame lifting device and the frame overturning device are matched to lift and overturn the paperboard, so that the overturning device can rotate at any angle of 0-120 degrees without interference, the conveying speed is adjusted by independently controlling the multi-stage belt, and the waiting time of the overturning part for paper feeding is shortened.

Description of the drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the frame lifting and turning mechanism of the present invention.

Fig. 3 is a schematic structural view of the cardboard conveying part of the present invention.

Fig. 4 is a schematic structural view of the fish scale-shaped paper separating device of the present invention.

Fig. 5 is the structure schematic diagram of the waste rack of the utility model.

Detailed Description

As shown in the attached drawings, the utility model discloses a cardboard upset portion and cardboard conveying department installed in proper order on frame 1, cardboard upset portion includes frame 2 and frame promotion tilting mechanism, frame 2 bottom one end horizontal direction is equipped with scalable tooth fork 3, frame 2 vertical direction is equipped with first band conveyer 4 respectively, striker frame 5 and is used for controlling striker frame drive arrangement that striker frame 5 rotated, frame 1's both sides are equipped with vertical spout 6 respectively, frame 2's bottom one end is equipped with first pivot 8, the both ends of first pivot 8 are located the vertical spout 6 that frame 1 both sides correspond respectively, frame promotion tilting mechanism includes a pair of frame hoisting device that is used for controlling frame 2 to reciprocate in frame 1 and is used for controlling frame 2 to rotate around first pivot 8 frame hoisting device;

the paper board conveying part comprises a second belt conveyor 11, a third belt conveyor 12, a telescopic belt conveyor 13, a scaly paper separating device and a support arm jacking device which are sequentially arranged on a support arm 10, one end of the support arm 10 is hinged on the rack 1, the other end of the support arm 10 is supported on the ground through the support arm jacking device, the second belt conveyor 11 and the third belt conveyor 12 are positioned on the same horizontal plane, the telescopic belt conveyor 13 is positioned below the discharge end of the third belt conveyor 12, the discharge ends of the third belt conveyor 12 and the telescopic belt conveyor 13 are respectively provided with a paper board end part aligning device, the scaly paper separating device comprises an adjustable support frame 15, a liftable front baffle 16 and a pair of paper board side edge aligning devices, the adjustable support frame 15 is arranged on the support arm 10 and positioned above the telescopic belt conveyor 13, the liftable front baffle 16 is arranged on the adjustable support frame 15, and a paper passing channel is formed between the adjustable paper board side edge beating device and the telescopic belt conveyor 13, and the pair of paper board side edge beating devices are respectively and symmetrically arranged on the adjustable support frame 15 and are positioned at two sides of the liftable front baffle 16.

Scalable chain stay 3 is including installing second pivot 18 and second pivot driving motor 19 on the chain stay, frame 2 both sides are equipped with first rack 17 respectively, the both ends of second pivot 18 are equipped with the walking gear who uses with first rack 17 cooperation respectively, the chain stay both sides still are equipped with respectively and press from both sides tight wheel of tight first rack 17 with the walking gear cooperation, frame 2 is equipped with two sets of upper and lower chain stay spacing wheels 20 on, be equipped with the drive gear that uses of mutually supporting on the second pivot 18 and the power output shaft of second pivot driving motor 19 respectively.

The material blocking frame driving device comprises a pair of material blocking frame driving cylinders 25, one end of the material blocking frame 5 is hinged to the frame 2, a third rotating shaft 26 is arranged on the frame 2, a first crank 27 for controlling the material blocking frame 5 to swing is arranged on the third rotating shaft 26, and the pair of material blocking frame driving cylinders 25 are respectively hinged to two sides of the frame 2 through cylinder seats and drive the third rotating shaft 26 to rotate.

A pair of frame hoisting device is symmetry respectively and installs in frame 1 both sides, frame hoisting device includes sprocket case driving motor 30, sprocket case 31 and balancing weight 32, the both sides of frame 1 are equipped with vertical guide rail 33 respectively, balancing weight 32 is installed on the slider of vertical guide rail 33, chain one end is connected on balancing weight 32, each sprocket that the chain other end walked around sprocket case 31 is connected with first pivot 8, sprocket case driving motor 30 drives sprocket case 31 and rotates.

The frame turnover device comprises a pair of frame turnover motors 35 symmetrically installed on the frame 1, a fourth rotating shaft 36 is arranged on the frame 1, transmission gears matched with each other are respectively arranged at two ends of the fourth rotating shaft 36 and on power output shafts of the frame turnover motors 35, a fifth rotating shaft 37 is arranged at one end of the top of the frame 2, a pair of pull rods 38 is arranged on the fifth rotating shaft 37, a pair of third cranks 39 are arranged on the fourth rotating shaft 36, and the third cranks 39 are hinged to the corresponding pull rods 38.

The paper board end part aligning device comprises an aligning plate 40 and an aligning plate control cylinder 41, the aligning plate 40 is respectively installed on the discharge end racks of the corresponding third belt conveyor 12 and the telescopic belt conveyor 13 through the aligning plate control cylinder 41, and a pair of guide rod and guide sleeve assemblies for controlling the balance of the aligning plate 40 are respectively arranged on the discharge end racks of the third belt conveyor 12 and the telescopic belt conveyor 13; the supporting arm jacking device comprises a pair of worm gear lifters 56 arranged on a base 55, and the top rods of the worm gear lifters 56 are hinged on the supporting arm 10.

Two ends of the adjustable support frame 15 are respectively movably mounted on the support arm 10 through slide rails, a sixth rotating shaft 43 and a sixth rotating shaft driving motor 44 are arranged on the adjustable support frame 15, the sixth rotating shaft driving motor 44 drives the sixth rotating shaft 43 to rotate, two sides of the support arm 10 are respectively provided with a second rack 49, and two ends of the sixth rotating shaft 43 are respectively provided with a traveling gear matched with the second rack 49; the liftable front baffle 16 is movably arranged on the adjustable support frame 15 through a pair of slide rails, an electric screw rod lifter 45 is arranged on the adjustable support frame 15, and the electric screw rod lifter 45 drives the liftable front baffle 16 to move up and down on the adjustable support frame 15; the paperboard side edge aligning device comprises a side baffle plate 46, a side baffle plate driving cylinder 47 and an electric sliding table 48, wherein the electric sliding table 48 is installed on the adjustable supporting frame 15, and the side baffle plate 46 is installed on a sliding block of the electric sliding table 48 through the side baffle plate driving cylinder 47.

The telescopic fork 3 is provided with a vacuum pump 50, the top of each fork of the telescopic fork 3 is respectively provided with an air inlet hole, the bottom of each fork of the telescopic fork 3 is provided with an air outlet hole, and the vacuum pump 50 is respectively communicated with the air outlet holes of the forks through pipelines.

The waste material rack 51 is arranged below the second belt conveyor 11, the top of the waste material rack 51 is an inclined plane, and a stop block 52 is arranged on the waste material rack 51 at the lower end of the inclined plane.

The working mode and principle are as follows: the telescopic tooth fork 3 and the first belt conveyer 4 form an L-shaped paperboard bracket, the first belt conveyer 4, the second belt conveyer 11, the third belt conveyer 12 and the telescopic belt conveyer 13 are controlled independently, in the scheme, the first belt conveyer 4, the second belt conveyer 11, the third belt conveyer 12 and the telescopic belt conveyer 13 are formed by arranging a plurality of belts, a gap is arranged between every two adjacent belts, the material blocking frame 5 is contracted in each belt gap of the first belt conveyer 4 when not used, when a paperboard stack is conveyed to the paperboard overturning part through the conveyer, the paperboard stack is positioned above the telescopic tooth fork 3 at the moment, the telescopic tooth fork 3 can adjust the extending distance according to the width of the paperboard stack, the framework lifting and overturning mechanism is started to lift and overturn the paperboard stack, the paperboard stack is positioned on one side of the feeding end of the second belt conveyer 11 after overturning, when the paperboard pile turns over more than 90 degrees, the paper board pile is generally controlled to be 93-95 degrees, the paperboard is dumped, the belt conveyors are started, and the paperboard enters the printing machine after sequentially passing through the second belt conveyor 11, the third belt conveyor 12 and the telescopic belt conveyor 13; the telescopic belt conveyor 13 is convenient for adjusting the distance between the paper feeding machine and the printing machine. The paperboards are arranged and neatly arranged by the fish scale paper separating device after falling onto the telescopic belt conveyor 13, then the paperboards sequentially pass through a paper passing channel between the telescopic belt conveyor 13 and the liftable front baffle 16, the fish scale paper separating device aligns the front ends and the left side and the right side of the paperboards, and the paper board end part aligning device aligns the tail ends of the paperboards.

The telescopic action of the telescopic fork 3 is controlled by a second rotating shaft driving motor 19, the second rotating shaft driving motor 19 drives a second rotating shaft 18 to rotate, a gear on the second rotating shaft 18 walks on a first tooth rail 17 to drive the telescopic fork 3 to move, the first tooth rail 17 is positioned between the gear of the second rotating shaft 18 and a clamping wheel, and the fork moves between an upper tooth fork limiting wheel 20 and a lower tooth fork limiting wheel 20 of the frame 2 to keep the telescopic fork 3 to move horizontally.

When the conveying of the paperboards on the second belt conveyor 11 is not completed, when the second batch of paperboards are lifted and turned, the material blocking frame driving device is started, the pair of material blocking frame driving cylinders 25 is started to drive the third rotating shaft 26 to rotate by a certain angle, the first crank 27 is fixedly connected to the third rotating shaft 26, the first crank 27 is movably connected with the material blocking frame 5, the third rotating shaft 26 drives one end of the material blocking frame 5 to lift through the first crank 27, the lifting direction is opposite to the turning direction, for example, the turning angle is 5-10 degrees, under the condition that the turning angle of the frame turning device is unchanged, the turning angle of the paperboards stack is smaller than 90 degrees at the moment, the paperboards are prevented from being toppled, after the paperboards on the second belt conveyor 11 are conveyed, the material blocking frame driving cylinders 25 drive the material blocking frame 5 to reset, and the paperboards are toppled at the moment and continue.

Frame hoisting device's theory of operation, sprocket case driving motor 30 drive sprocket case 31 rotates, drives the chain and removes when sprocket case 31 rotates, and frame 2 promotes or descends through the chain, and the one end of chain is connected to balancing weight 32, and balancing weight 32 follows when the chain removes and reciprocates, makes the chain expansion end remain stable and perpendicular.

The frame turning device and the frame lifting device are matched to form a crank sliding block mechanism for turning the frame 2, so that the frame 2 can be turned while being lifted, the frame 2 can be prevented from being interfered at any angle of 0-120 degrees, the phenomenon of blocking is prevented, the frame turning motor 35 is started during turning to drive the fourth rotating shaft 36 to rotate, the third crank 39 is fixedly connected onto the fourth rotating shaft 36, and the third crank 39 drives the pull rod 38 to move and control the frame 2 to turn through angle deflection during rotation.

The paper board end beating device drives the shaping plate 40 to beat the tail end of the paper board through the reciprocating movement of the shaping plate control cylinder 41, so that the upper paper board and the lower paper board are aligned, and in the same way, the paper board side beating device drives the reciprocating movement of the cylinder 47 through the side baffle plate to drive the side baffle plate 46 to align the side edge of the paper board. According to the length of the paper board, the adjustable supporting frame 15 is driven by a sixth rotating shaft driving motor 44 to move back and forth through the cooperation of a sixth rotating shaft 43 gear and a second rack 49, and is used for adjusting the distance between the liftable front baffle 16 and the shaping plate 40 on the third belt conveyor 12; according to the width of the paper boards, the distance between the two paper board side edge patting devices is adjusted through the electric sliding table 48.

After the cardboard is piled and placed on scalable chain wheel 3, because the weight of cardboard, the easy pressure loss of cardboard of lower floor, open respectively at each chain wheel top of scalable chain wheel 3 has the inlet port, after vacuum pump 50 opens, each inlet port department is the negative pressure, can hold last cardboard after the upset, after the cardboard on frame 2 all entered into second belt conveyor 11, frame turning device continued the upset 5-10, the discharge end of first belt conveyor 4 and the feed end of second belt conveyor 11 stagger, namely the discharge end of first belt conveyor 4 is less than the feed end of second belt conveyor 11, vacuum pump 50 closes, scalable chain wheel 3 shrink, at this moment the cardboard that adsorbs on scalable chain wheel 3 drops and emptys, and along with on first belt conveyor 4 direction of delivery slided to waste material frame 51.

The supporting arm jacking device is used for controlling the inclination angle of the paper board conveying part so as to adjust the height of the paper board conveying part matched with the printing machine.

Claims (9)

1. A corrugated board turning and feeding system is characterized by comprising a paperboard turning part and a paperboard conveying part which are sequentially arranged on a rack (1), wherein the paperboard turning part comprises a frame (2) and a frame lifting and turning mechanism, a telescopic tooth fork (3) is arranged at one end of the bottom of the frame (2) in the horizontal direction, a first belt conveyor (4), a material blocking frame (5) and a material blocking frame driving device for controlling the rotation of the material blocking frame (5) are respectively arranged in the vertical direction of the frame (2), vertical sliding grooves (6) are respectively arranged at two sides of the rack (1), a first rotating shaft (8) is arranged at one end of the bottom of the frame (2), two ends of the first rotating shaft (8) are respectively positioned in the corresponding vertical sliding grooves (6) at two sides of the rack (1), the frame lifting and overturning mechanism comprises a pair of frame lifting devices for controlling the frame (2) to move up and down in the rack (1) and a frame overturning device for controlling the frame (2) to rotate around a first rotating shaft (8);

the paper board conveying part comprises a second belt conveyor (11), a third belt conveyor (12), a telescopic belt conveyor (13), a fish scale paper separating device and a support arm jacking device which are sequentially arranged on a support arm (10), one end of the support arm (10) is hinged on the rack (1), the other end of the support arm (10) is supported on the ground through the support arm jacking device, the second belt conveyor (11) and the third belt conveyor (12) are positioned on the same horizontal plane, the telescopic belt conveyor (13) is positioned below the discharge end of the third belt conveyor (12), paper board end part beating and aligning devices are respectively arranged at the discharge ends of the third belt conveyor (12) and the telescopic belt conveyor (13), the fish scale paper separating device comprises an adjustable support frame (15), a liftable front baffle (16) and a pair of paper board side edge beating and aligning devices, the adjustable support frame (15) is arranged on the support arm (10), and is positioned above the telescopic belt conveyor (13), a liftable front baffle (16) is arranged on the adjustable support frame (15) and forms a paper passing channel with the telescopic belt conveyor (13), and a pair of paper board side edge patting devices are respectively and symmetrically arranged on the adjustable support frame (15) and are positioned at two sides of the liftable front baffle (16).

2. A corrugated cardboard turning and feeding system as claimed in claim 1, wherein the retractable tooth fork (3) comprises a second rotating shaft (18) and a second rotating shaft driving motor (19) mounted on the tooth fork, the frame (2) is provided with first tooth tracks (17) on both sides, the second rotating shaft (18) is provided with traveling gears at both ends thereof for cooperating with the first tooth tracks (17), the tooth fork is further provided with clamping wheels at both sides thereof for cooperating with the traveling gears to clamp the first tooth tracks (17), the frame (2) is provided with upper and lower sets of tooth fork limiting wheels (20), and the second rotating shaft (18) and the power output shaft of the second rotating shaft driving motor (19) are provided with transmission gears for cooperating with each other.

3. A corrugated cardboard turning and feeding system as claimed in claim 1, wherein the material blocking frame driving device comprises a pair of material blocking frame driving cylinders (25), one end of the material blocking frame (5) is hinged on the frame (2), the frame (2) is provided with a third rotating shaft (26), the third rotating shaft (26) is provided with a first crank (27) for controlling the material blocking frame (5) to swing, and the pair of material blocking frame driving cylinders (25) are respectively hinged on two sides of the frame (2) through cylinder seats and drive the third rotating shaft (26) to rotate.

4. A corrugated cardboard turning and feeding system as claimed in claim 1 wherein a pair of frame lifting devices are symmetrically mounted on both sides of the frame (1) respectively, the frame lifting devices comprise a sprocket box driving motor (30), a sprocket box (31) and a weight block (32), both sides of the frame (1) are provided with vertical guide rails (33) respectively, the weight block (32) is mounted on a slide block of the vertical guide rail (33), one end of a chain is connected to the weight block (32), the other end of the chain is connected to the first rotating shaft (8) by bypassing each sprocket of the sprocket box (31), and the sprocket box driving motor (30) drives the sprocket box (31) to rotate.

5. A corrugated cardboard turning and feeding system as claimed in claim 1, characterized in that the frame turning device comprises a pair of frame turning motors (35) symmetrically mounted on the frame (1), the frame (1) is provided with a fourth rotating shaft (36), two ends of the fourth rotating shaft (36) and the power output shaft of the frame turning motor (35) are respectively provided with transmission gears mutually matched, one end of the top of the frame (2) is provided with a fifth rotating shaft (37), the fifth rotating shaft (37) is provided with a pair of pull rods (38), the fourth rotating shaft (36) is provided with a pair of third cranks (39), and the third cranks (39) are hinged with the corresponding pull rods (38).

6. A corrugated board turning and feeding system as claimed in claim 1, wherein the cardboard end aligning device comprises an aligning plate (40) and an aligning plate control cylinder (41), the aligning plate (40) is respectively mounted on the discharge end frames of the corresponding third belt conveyor (12) and the telescopic belt conveyor (13) through the aligning plate control cylinder (41), and the discharge end frames of the third belt conveyor (12) and the telescopic belt conveyor (13) are respectively provided with a pair of guide rod and guide sleeve assemblies for controlling the balance of the aligning plate (40); the supporting arm jacking device comprises a pair of worm and gear lifters (56) arranged on a base (55), and ejector rods of the worm and gear lifters (56) are hinged on the supporting arm (10).

7. The corrugated board turning and feeding system as claimed in claim 1, wherein two ends of the adjustable support frame (15) are movably mounted on the support arm (10) through slide rails, a sixth rotating shaft (43) and a sixth rotating shaft driving motor (44) are arranged on the adjustable support frame (15), the sixth rotating shaft driving motor (44) drives the sixth rotating shaft (43) to rotate, the two sides of the support arm (10) are respectively provided with a second rack (49), and two ends of the sixth rotating shaft (43) are respectively provided with a traveling gear matched with the second rack (49); the liftable front baffle (16) is movably arranged on the adjustable support frame (15) through a pair of slide rails, an electric screw rod lifter (45) is arranged on the adjustable support frame (15), and the electric screw rod lifter (45) drives the liftable front baffle (16) to move up and down on the adjustable support frame (15); the paperboard side edge patting and aligning device comprises a side baffle (46), a side baffle driving cylinder (47) and an electric sliding table (48), wherein the electric sliding table (48) is installed on the adjustable supporting frame (15), and the side baffle (46) is installed on a sliding block of the electric sliding table (48) through the side baffle driving cylinder (47).

8. A corrugated cardboard turning and feeding system as claimed in claim 1 wherein the retractable prongs (3) are provided with a vacuum pump (50), the top of each prong of the retractable prongs (3) is provided with an air inlet hole, the bottom of each prong of the retractable prongs (3) is provided with an air outlet hole, and the vacuum pump (50) is connected to the air outlet holes of each prong through pipes.

9. A corrugated cardboard turning and feeding system as claimed in claim 1 wherein there is a waste holder (51), the waste holder (51) being located below the second belt conveyor (11), the top of the waste holder (51) being bevelled and a stop (52) being provided on the waste holder (51) at the lower end of the bevel.

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