CN112537586A - Three-dimensional storage rack of printing plate roller for flexographic printing machine - Google Patents

Abstract

The invention discloses a three-dimensional storage rack for printing plate rollers for a flexible plate printing machine, which comprises four groups of vertical beams, wherein bases are respectively arranged at the bottom ends of the four groups of vertical beams, four groups of bolt holes are formed in the periphery of the upper end surface of each base, five groups of storage mechanisms are arranged on the four groups of vertical beams at equal intervals, two groups of transverse track beams are arranged on the upper end surface of each vertical beam, transverse beams are arranged on the upper end surfaces of the left sides of the two groups of transverse track beams, transverse sliding mechanisms are arranged at the lower ends of the two sides of each transverse beam, two groups of lifting vertical beams are arranged on the left side of each transverse beam, motors are respectively arranged at the upper end and the lower end of each lifting vertical beam, rotating shafts of the motors penetrate through guide rail grooves, chain wheels are respectively arranged on the inner sides of the motors, through the arrangement, more printing plate rollers with different specifications can be placed, and the service efficiency of the three-dimensional storage rack is improved.

Description

Three-dimensional storage rack of printing plate roller for flexographic printing machine

Technical Field

The invention relates to the technical field of flexographic printing machines, in particular to a three-dimensional storage rack for a printing plate roller for a flexographic printing machine.

Background

The flexible printing is to use a flexible printing plate to print in a mode of transmitting ink by an anilox ink roller, the anilox roller uniformly coats an ink layer with certain thickness on an inking part of the printing plate during printing, and then the ink layer of the inking part is transferred to the surface of a printing stock under the action of the printing plate roller and an impression roller to form clear pictures and texts.

Different printing plate rollers of different needs customization according to the printing product, increase along with time, what the variety of product brought is the continuous increase of printing plate roller quantity and kind, current three-dimensional storage rack of printing plate roller for flexographic printing machine deposits the specification singlely, can not satisfy and place different kinds of printing plate roller, and adopt artifical transport loading and unloading printing plate roller, staff's intensity of labour has been increaseed, current three-dimensional storage rack of printing plate roller for flexographic printing machine area is big, but can only place a small amount of printing plate roller, when placing a large amount of printing plate rollers, can only take to range upon range of with the three-dimensional storage rack of printing plate roller for flexographic printing machine.

Disclosure of Invention

The invention aims to provide a three-dimensional storage rack for printing plate rollers for a flexographic printing machine, which solves the problems that different printing plate rollers are customized according to different requirements of printed products, the number and types of the printing plate rollers are increased along with the increase of time and the diversity of the products, the three-dimensional storage rack for the printing plate rollers for the existing flexographic printing machine has a single storage specification, the storage requirements of different types of printing plate rollers cannot be met, the three-dimensional storage rack for the printing plate rollers for the existing flexographic printing machine has large floor area, but only a small number of printing plate rollers can be stored, and the three-dimensional storage rack for the printing plate rollers for the flexographic printing machine can be stacked only when a large number of printing plate rollers are stored.

In order to achieve the purpose, the invention provides the following technical scheme: a three-dimensional storage rack for printing plate rollers for a flexographic printing machine comprises four groups of vertical beams, wherein bases are installed at the bottoms of the four groups of vertical beams, four groups of bolt holes are formed in the periphery of the upper end face of each base, transverse track fixing seats are installed at the upper ends of the four groups of vertical beams, five groups of storage mechanisms are arranged on the inner sides of the four groups of vertical beams at equal intervals, printing plate rollers are arranged at the upper ends of the storage mechanisms, two groups of transverse track beams are installed on the upper end faces of the vertical beams and fixedly connected with the vertical beams through the transverse track fixing seats, transverse sliding mechanisms are arranged on the inner sides of the middles of the two groups of transverse track beams, transverse beams are installed on the upper end faces of the left sides of the two groups of transverse track beams, two groups of hoisting beams are installed on the left sides of the transverse beams, guide rail grooves are formed in, four groups the lower extreme of motor all installs the lower plate, and the lower plate medial surface all with lifting beam lateral surface fixed connection, four groups the sprocket is installed respectively to the motor inboard, a set of chain is installed to sprocket both sides face, the chain outside is provided with the line and hangs the mechanism.

Preferably, the sliding grooves are formed in the inner sides of the lower ends of the two transverse track beams, the sliding blocks are mounted on the left side faces of the upper ends of the two transverse track beams respectively and are connected with the transverse beams, the whole-circle beam seats are mounted on two sides of the transverse beams, the supporting cross beam is mounted on the lower end face of each whole-circle beam seat, and the left end of the supporting cross beam is fixedly connected with the upper end face of the lifting beam.

Preferably, five groups deposit the mechanism and include two sets of bearing crossbeams, it is two sets of the connecting seat is installed respectively at bearing crossbeam both ends, and is two sets of bearing crossbeam installs two sets of racks in the upper end, the multiunit semicircle mouth has been seted up to the rack upper end, and the semicircle mouth diameter is the half of rack width, set up flutedly in the middle of the rack medial surface, the carriage is installed to the rack medial surface, the bearing is installed to the carriage inboard, and the bearing agrees with mutually with the recess.

Preferably, the telescopic link is installed to the carriage right flank, the cylinder is installed to the telescopic link right-hand member No. one, two sets of cylinder block are installed to the terminal surface under the cylinder, and are two sets of the cylinder block bottom is installed the cylinder bottom plate, and cylinder bottom plate left side is connected with bearing crossbeam right side, the rear end the slidable seat is installed to rack both sides bottom, and slidable seat bottom and bearing crossbeam rear end swing joint, left side the slidable seat leading flank is installed No. three telescopic links, No. two cylinders are installed to No. three telescopic link front ends, and No. two cylinder bottom faces are connected with left side bearing crossbeam, the front end unable adjustment base is installed to rack both sides bottom, and unable adjustment base and bearing crossbeam rear end fixed connection.

Preferably, the lateral sliding mechanism includes the spliced pole, the dish that rolls is all installed to spliced pole both ends face, and rolls in dish and the lateral track roof beam lower extreme inboard sliding groove that rolls, two sets of rolling framves are installed to the dish inboard that rolls, and are two sets of the fixing base is all installed at rolling frame both ends, and the inboard fixed connection of fixing base and sliding block.

Preferably, the crane mechanism includes the hoist and mount frame, No. two telescopic links are installed to hoist and mount frame lateral surface, No. two telescopic link lateral surface fixed mounting accept the seat, and accept the seat inboard and seted up the connecting block, and connecting block and chain fixed connection.

Compared with the prior art, the invention has the beneficial effects that: this flexographic plate printing machine is provided with on-line mechanism of hanging and lateral sliding mechanism of three-dimensional storage rack of printing plate roller, when the user places printing plate roller both ends on hoist and mount frame, change the distance between the on-line mechanism of hanging through No. two telescopic links, hoist different types of printing plate roller, user's starter motor, motor shaft drives the sprocket rotation, the sprocket drives the chain and reciprocates, the seat of accepting of chain side moves together simultaneously, user's control motor switch will go the mechanism of hanging and promote to preparing the deposit layer of placing, owing to adopt the chain drive, it is stable during the transmission, need not staff's manual handling loading and unloading printing plate roller, staff's intensity of labour has been reduced.

The three-dimensional storage rack for the printing plate roller for the flexographic printing machine is provided with a storage mechanism, when the printing plate roller is conveyed to the left side of the storage mechanism, gas is pressurized through a second cylinder to enable a third telescopic rod to stretch, a placing rack is connected with the third telescopic rod through a bottom sliding seat, the distance between the storage rack and a rack at the other end is adjusted, the length of the printing plate roller to be placed is ensured to be consistent, the first cylinder is pressurized with gas, a first telescopic rod is stretched, a sliding rack is moved leftwards to the lower parts of the two ends of the printing plate roller, a traveling crane mechanism moves downwards to place the printing plate roller on the sliding rack, the first telescopic rod is contracted at the moment, the printing plate roller moves rightwards, when the printing plate roller moves to the upper semicircular opening of the placing rack and withdraws downwards through the sliding rack, the printing plate roller is accurately placed on the placing rack, and the three, the problem of traditional three-dimensional storage rack area big, and can only place a small amount of printing plate rollers, when placing a large amount of printing plate rollers, can only take to carry out range upon range of with three-dimensional storage rack is solved.

Drawings

FIG. 1 is a schematic view of the overall structure of a three-dimensional storage rack for printing plate cylinders for a flexographic printing machine according to the present invention;

FIG. 2 is a schematic view of the overall structure of a storage mechanism in a three-dimensional storage rack for printing plate cylinders for a flexographic printing machine according to the present invention;

FIG. 3 is a schematic view of the overall structure of a lateral sliding mechanism in a three-dimensional storage rack for printing plate cylinders of a flexographic printing machine according to the present invention;

FIG. 4 is an overall schematic view of a traveling crane mechanism in a three-dimensional storage rack for printing plate cylinders for a flexographic printing machine according to the present invention.

In the figure: 1. erecting a beam; 2. a base; 3. a transverse track fixing seat; 4. a transverse track beam; 5. a sliding groove; 6. a plate cylinder; 7. a storage mechanism; 701. a load-bearing beam; 702. a first cylinder; 703. a first telescopic rod; 704. a cylinder block; 705. a cylinder bottom plate; 706. placing a rack; 707. a semicircular opening; 708. a connecting seat; 709. a carriage; 710. a fixed base; 711. a slidable seat; 712. a third telescopic rod; 713. a second cylinder; 8. a lateral sliding mechanism; 801. a scroll pan; 802. connecting columns; 803. a fixed seat; 804. a rolling frame; 9. a traveling and hoisting mechanism; 901. a hoisting frame; 902. a bearing seat; 903. a second telescopic rod; 10. a motor; 11. a chain; 12. a sprocket; 13. a lifting beam; 14. a guide rail groove; 15. a lower base plate; 16. a support beam; 17. a full-circle beam seat; 18. a transverse beam; 19. and a slider.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a three-dimensional storage rack for a printing plate roller for a flexible plate printing machine comprises four groups of vertical beams 1, wherein bases 2 are respectively arranged at the bottom ends of the four groups of vertical beams 1, four groups of bolt holes are formed in the periphery of the upper end surface of each base 2, transverse rail fixing seats 3 are respectively arranged at the upper ends of the four groups of vertical beams 1, five groups of storage mechanisms 7 are arranged on the inner side surfaces of the four groups of vertical beams 1 at equal intervals, a printing plate roller 6 is arranged at the upper end of each storage mechanism 7, two groups of transverse rail beams 4 are arranged on the upper end surface of each vertical beam 1, the transverse rail beams 4 are fixedly connected with the vertical beams 1 through the transverse rail fixing seats 3, transverse sliding mechanisms 8 are arranged on the inner sides in the middles of the two groups of transverse rail beams 4, transverse beams 18 are arranged on the upper end surfaces of the left sides of the two groups of transverse rail beams 4, two groups, and the rotating shaft of the motor 10 penetrates through the guide rail groove 14, the lower ends of the four groups of motors 10 are all provided with lower bottom plates 15, the inner side surfaces of the lower bottom plates 15 are all fixedly connected with the outer side surface of the lifting beam 13, the inner sides of the four groups of motors 10 are respectively provided with a chain wheel 12, two side surfaces of the chain wheel 12 are provided with a group of chains 11, and the outer sides of the chains 11 are provided with a traveling crane mechanism.

The inboard of two sets of horizontal track roof beams 4 lower extreme has seted up the taxiway 5, and the left surface of two sets of horizontal track roof beams 4 upper end is installed sliding block 19 respectively, and sliding block 19 is connected with horizontal roof beam 18, and whole round beam seat 17 is installed on horizontal roof beam 18 both sides, and support beam 16 is installed to whole round beam seat 17 lower terminal surface, and support beam 16 left end and lifting beam 13 up end fixed connection.

Through the technical scheme: this flexographic plate printing machine is with three-dimensional storage rack of printing plate roller is provided with line hoist mechanism 9 and lateral sliding mechanism 8, when user places printing plate roller 6 both ends on hoist and mount frame 901, change the distance between line hoist mechanism 9 through No. two telescopic links 903, hoist different types of printing plate roller 6, user opens motor 10, motor 10 pivot drives sprocket 12 and rotates, sprocket 12 drives chain 11 and reciprocates, the seat 902 of accepting of chain 11 side moves together simultaneously, user control motor 10 switch will go hoist mechanism 9 and promote to preparing the deposit layer of placing, owing to adopt the chain drive, it is stable during the transmission, need not staff's manual handling loading and unloading printing plate roller 6, staff's intensity of labour has been reduced.

Five groups of storage mechanism 7 include two sets of bearing beams 701, and connecting seat 708 is installed respectively at two sets of bearing beams 701 both ends, and two sets of rack 706 are installed to two sets of bearing beams 701 upper ends, and rack 706 upper end has been seted up multiunit semicircle mouth 707, and the semicircle mouth 707 diameter is the half of rack 706 width, sets up flutedly in the middle of the rack 706 medial surface, and rack 709 is installed to rack 706 medial surface, and the bearing is installed to the rack 709 inboard, and the bearing agrees with the recess mutually.

The right side surface of the sliding frame 709 is provided with a first telescopic rod 703, the right end of the first telescopic rod 703 is provided with a first air cylinder 702, the lower end surface of the first air cylinder 702 is provided with two sets of air cylinder seats 704, the bottom ends of the two sets of air cylinder seats 704 are provided with an air cylinder bottom plate 705, the left side of the air cylinder bottom plate 705 is connected with the right side of the bearing beam 701, the bottom ends of the two sides of the rear end placing frame 706 are provided with a slidable seat 711, the bottom end of the slidable seat 711 is movably connected with the rear end of the bearing beam 701, the front side surface of the left side slidable seat 711 is provided with a third telescopic rod 712, the front end of the third telescopic rod 712 is provided with a second air cylinder 713, the bottom end surface of the second air cylinder 713 is connected with.

The transverse sliding mechanism 8 comprises a connecting column 802, rolling discs 801 are mounted on two end faces of the connecting column 802, the rolling discs 801 roll in the sliding grooves 5 in the lower end inner side of the transverse track beam 4, two rolling frames 804 are mounted on the inner side of the rolling discs 801, fixing seats 803 are mounted at two ends of the two rolling frames 804, and the fixing seats 803 are fixedly connected with the inner side of the sliding block 19.

The crane mechanism 9 comprises a hoisting frame 901, a second telescopic rod 903 is mounted on the outer side surface of the hoisting frame 901, a bearing seat 902 is fixedly mounted on the outer side surface of the second telescopic rod 903, a connecting block is arranged on the inner side of the bearing seat 902, and the connecting block is fixedly connected with the chain 11.

Through the technical scheme: the three-dimensional storage rack for the printing plate rollers for the flexographic printing machine is provided with a storage mechanism 7, when the printing plate rollers 6 are conveyed to the left side of the storage mechanism 7, air is pressurized through a second air cylinder 713 at the moment, a third expansion link 712 is made to expand and contract, a storage rack 706 is connected with the third expansion link 712 through a bottom slidable seat 711, the distance between the storage rack 706 and the other end is adjusted, the length of the printing plate rollers 6 to be placed is ensured to be consistent with that of the printing plate rollers 6 to be placed, at the moment, the air is pressurized through a first air cylinder 702, the first expansion link 703 is made to expand and contract, a sliding frame 709 is moved leftwards to the lower parts of two ends of the printing plate rollers 6, a traveling crane mechanism 9 moves downwards, the printing plate rollers 6 are placed on the sliding frame 709, at the moment, the first expansion link 703 is contracted, the printing plate rollers 6 move rightwards, when, this three-dimensional storage rack of printing plate roller for flexographic printing machine deposits mechanism 7 through setting up the multilayer, has solved that traditional three-dimensional storage rack area is big, and can only place a small amount of printing plate rollers 6, when placing a large amount of printing plate rollers 6, can only take and carry out range upon range of problem with three-dimensional storage rack.

The working principle is as follows: for the three-dimensional storage rack of the printing plate roller for the flexographic printing machine, firstly, the whole device is stably placed on a flat ground through the base 2 at the bottom of the vertical beam 1, when a user places two ends of the printing plate roller 6 on the lifting frame 901, the distance between the row lifting mechanisms 9 is changed through the second telescopic rod 903 to lift different types of printing plate rollers 6, the user starts the motor 10, the rotating shaft of the motor 10 drives the chain wheel 12 to rotate, the chain wheel 12 drives the chain 11 to move up and down, meanwhile, the bearing seats 902 on the side surface of the chain 11 move together, the user controls the switch of the motor 10 to lift the row lifting mechanisms 9 to a storage layer to be placed, and due to the adoption of chain transmission, the storage rack is stable in transmission, the manual carrying, loading and unloading of the printing plate roller 6 by the working personnel is not needed, the labor intensity of the working personnel is reduced, when the printing plate roller 6 is conveyed to, so that the third telescopic rod 712 can be extended and contracted, the placing frame 706 is connected with the third telescopic rod 712 through a bottom slidable seat 711, the distance between the placing frame 706 and the other end is adjusted, the length of the printing plate roller 6 to be placed is ensured to be consistent, at the moment, the first cylinder 702 pressurizes gas, the first telescopic rod 703 is extended and contracted, the sliding frame 709 is moved leftwards to the lower parts of the two ends of the printing plate roller 6, the traveling crane mechanism 9 moves downwards, the printing plate roller 6 is placed on the sliding frame 709, at the moment, the first telescopic rod 703 is contracted, the printing plate roller 6 moves rightwards, when the sliding frame moves to a semi-circular opening 707 on the placing frame 706, the printing plate roller 6 is withdrawn downwards through the sliding frame 709, the printing plate roller 6 is accurately placed on the placing frame 706, the three-dimensional printing plate roller storing frame for the flexographic printing plate printing machine is provided with the multilayer storing mechanism 7, the, when a large number of printing plate cylinders 6 are placed, only the problem of stacking the three-dimensional storage racks can be adopted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a three-dimensional storage rack of printing plate roller for flexographic printing machine, includes four sets of perpendicular roof beams (1), its characterized in that: four sets of the vertical beams (1) are all provided with a base (2), four sets of bolt holes are formed in the periphery of the upper end face of the base (2), transverse track fixing seats (3) are installed at the upper ends of the four sets of the vertical beams (1), five sets of storage mechanisms (7) are arranged on the inner side faces of the four sets of the vertical beams (1) at equal intervals, printing plate rollers (6) are arranged at the upper ends of the storage mechanisms (7), two sets of transverse track beams (4) are installed on the upper end faces of the vertical beams (1), the transverse track beams (4) are fixedly connected with the vertical beams (1) through the transverse track fixing seats (3), transverse sliding mechanisms (8) are arranged on the inner sides of the middles of the two sets of the transverse track beams (4), transverse beams (18) are installed on the upper end faces of the left sides of the two sets of the transverse track beams (4), two sets of hoisting beams (13) are, four sets of motors (10) are all installed at both ends about lifting beam (13), and motor (10) pivot runs through guide rail groove (14), four sets lower plate (15) are all installed to motor (10) lower extreme, and lower plate (15) medial surface all with lifting beam (13) lateral surface fixed connection, four sets sprocket (12) are installed respectively to motor (10) inboard, a set of chain (11) are installed to sprocket (12) both sides face, chain (11) outside is provided with capable mechanism of hanging (9).

2. The three-dimensional storage rack for printing plate cylinders of a flexographic printing machine according to claim 1, characterized in that: sliding grooves (5) have been seted up to two sets of horizontal track roof beam (4) lower extreme inboard, and are two sets of sliding block (19) are installed respectively to horizontal track roof beam (4) upper end left surface, and sliding block (19) are connected with horizontal roof beam (18), whole round beam seat (17) are installed to horizontal roof beam (18) both sides, supporting beam (16) are installed to the terminal surface under whole round beam seat (17), and supporting beam (16) left end and lifting beam (13) up end fixed connection.

3. The three-dimensional storage rack for printing plate cylinders of a flexographic printing machine according to claim 1, characterized in that: deposit mechanism (7) and include two sets of bearing beam (701), two sets of connecting seat (708) are installed respectively at bearing beam (701) both ends, and are two sets of bearing beam (701) upper end is installed two sets of rack (706), multiunit semicircle mouth (707) have been seted up to rack (706) upper end, and semicircle mouth (707) diameter is the half of rack (706) width, set up flutedly in the middle of rack (706) medial surface, carriage (709) are installed to rack (706) medial surface, the bearing is installed to carriage (709) inboard, and the bearing agrees with the recess mutually.

4. The three-dimensional storage rack for plate cylinders of a flexographic printing machine according to claim 3, characterized in that: the right side surface of the sliding frame (709) is provided with a first telescopic rod (703), the right end of the first telescopic rod (703) is provided with a first air cylinder (702), the lower end surface of the first air cylinder (702) is provided with two groups of air cylinder seats (704), the bottom ends of the two groups of air cylinder seats (704) are provided with an air cylinder bottom plate (705), the left side of the air cylinder bottom plate (705) is connected with the right side of the bearing beam (701), the bottom ends of the two sides of the placing frame (706) are provided with a sliding seat (711) at the rear end, the bottom end of the sliding seat (711) is movably connected with the rear end of the bearing beam (701), the front side surface of the sliding seat (711) at the left side is provided with a third telescopic rod (712), the front end of the third telescopic rod (712) is provided with a second air cylinder (713), the bottom end surface of the second air cylinder (713) is, and the fixed base (710) is fixedly connected with the rear end of the bearing beam (701).

5. The three-dimensional storage rack for printing plate cylinders of a flexographic printing machine according to claim 1, characterized in that: the transverse sliding mechanism (8) comprises a connecting column (802), rolling discs (801) are mounted on two end faces of the connecting column (802), the rolling discs (801) roll in the sliding grooves (5) in the lower end of the transverse track beam (4), two rolling frames (804) are mounted on the inner side of each rolling disc (801), two fixing seats (803) are mounted at two ends of each rolling frame (804), and the fixing seats (803) are fixedly connected with the inner sides of the sliding blocks (19).

6. The three-dimensional storage rack for printing plate cylinders of a flexographic printing machine according to claim 1, characterized in that: the crane mechanism (9) comprises a hoisting frame (901), a second telescopic rod (903) is installed on the outer side surface of the hoisting frame (901), a bearing seat (902) is fixedly installed on the outer side surface of the second telescopic rod (903), a connecting block is arranged on the inner side of the bearing seat (902), and the connecting block is fixedly connected with the chain (11).

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