CN111309998B - Drawing archive digital informatization management system and management method - Google Patents

Abstract

The invention relates to a drawing archive digital informatization management system and a management method, wherein the system comprises design ends, a production drawing is modeled and drawn on the basis of industrial design software, and computers at all the design ends are utilized through a design cloud; the process end simulates the production and manufacturing process of the designed product based on process programming software, programs a production process, and utilizes computers of each process end through process cloud; the database is provided with an electronic diagram imported by the design end, process data imported by the process end and a physical list of products; the technical server is used as an upper computer of the design end and the process end and is connected with the database; the numerical control server is used for storing the numerical control programming of each machine tool and is connected with a numerical control programming library and a technical server through a network or hardware; the invention has reasonable design, compact structure and convenient use.

Description

Drawing archive digital informatization management system and management method

Technical Field

The invention relates to a drawing archive digital informatization management system and a management method.

Background

At present, the drawing is a technical secret of an enterprise, and in actual production work, the drawing can change along with technical progress. After the drawing is changed, version management of the drawing and version upgrading of the drawing at the client of the user are involved. In traditional drawing version management, a user can only find the drawing of the latest version in the corresponding column of the system, so that the situation of version inconsistency is complicated and easy to occur, after the user finds the drawing of the latest version, the whole drawing needs to be downloaded from a server for updating, so that a large amount of bandwidth resources are occupied, the normal use of the whole network is influenced, in addition, the drawing is transmitted in the network, necessary safety protection measures are lacked, and the drawing is easy to be stolen. Although the prior art such as the CN200810111857.5 multi-drawing management method and device, the CN201510191304.5 power drawing version management system and method provides a modern intelligent drawing management system, the connection of the system and an enterprise management system has the defect of connection, for example, complete intelligent paperless connection cannot be realized.

In addition, although the network intelligent is a development trend of the industry at present, as an enterprise, in order to prevent the enterprise system from being invaded, crashed or poisoned, huge losses are brought to the enterprise, paper backup systems are generally existed in the enterprise, if blueprints or black-and-white images are adopted, but the blueprints and the black-and-white images cannot be produced, multiple copies can be damaged, and the blueprints are long in time and easy to generate unclear lines. Therefore, wax patterns are generally used for preservation, so that secondary copying can be performed. The conventional wax pattern management level is generally that a designer typesets and prints drawings, then cuts the wax pattern, classifies and stores the wax pattern in batches, but the conventional wax pattern cutting and storing is quite backward, and is time-consuming and labor-consuming. How to realize the automatic manufacturing management of wax patterns, thereby realizing the whole process automation, and becoming the technical problem to be solved urgently.

Disclosure of Invention

The invention aims to solve the technical problem of providing a drawing archive digital informatization management system and a drawing archive digital informatization management method.

In order to solve the problems, the invention adopts the following technical scheme:

a drawing archive digital informatization management system comprises

The design end models and draws production drawings on the basis of industrial design software, and utilizes computers of all the design ends through a design cloud;

The process end simulates the production and manufacturing process of the designed product based on process programming software, programs a production process, and utilizes computers of each process end through process cloud;

the database is provided with an electronic diagram imported by the design end, process data imported by the process end and a physical list of products;

the technical server is used as an upper computer of the design end and the process end and is connected with the database;

the numerical control server is used for storing the numerical control programming of each machine tool and is connected with a numerical control programming library and a technical server through a network or hardware;

the production server is connected with the technical server through an interface or a network and is used for organizing production scheduling among departments; the production workshop is used for issuing production commands according to a production server and downloading drawings through a technical server to arrange production; the numerical control server sends the programming to a corresponding numerical control machine tool, and the numerical control machine tool adjusts the scheduling programming according to actual conditions to carry out production and processing;

and the wax pattern printer prints the database data through the technical server and stores the database data into a wax pattern file library.

The invention has reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, fund saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic diagram of the structure of the information of the present invention.

Fig. 2 is a schematic diagram of the drawing management structure of the present invention.

Fig. 3 is a schematic view of a part one of the present invention.

Fig. 4 is a schematic view of a part two of the present invention.

Fig. 5 is a schematic view of the structure of the third part of the present invention.

Fig. 6 is a schematic view of a part four of the present invention.

Fig. 7 is a schematic view of a part one of the present invention.

Fig. 8 is a schematic view of a part one of the present invention.

Fig. 9 is a schematic view of a part one of the present invention.

Wherein: 1. printing waxed paper; 2. a waxed paper feeding device; 3. a print assist device; 4. a printer device; 5. a segmented waxed paper output device; 6. a finishing device; 7. a transfer device; 8. cutting the swinging platform; 9. a cutting head device; 10. a cutting auxiliary device; 11. a mold conveying device; 12. a mould stroke control lifting head; 13. a drawing feeding manipulator device; 14. drawing classification positioning clamping fixture; 15. drawing extracting device; 16. a wax pattern feeding device; 17. packaging and bagging the plastic; 18. a packaging bag feeding device; 19. a packaging bag roller set; 20. feeding into an eccentric press roll; 21. a plastic bag dividing knife; 22. sending out the extrusion press roller; 23. a plastic bag opening device; 24. a plastic bag exhaust compression roller; 25. a plastic bag sealing device; 26. a plastic bag marking machine; 27. a plastic bag output belt; 28. a stacking manipulator; 29. stacking a warehouse; 30. a waxed paper feeding rack; 31. a waxed paper rotating main shaft; 32. wax paper dividing support; 33. radial adjustment push rod of waxed paper; 34. a waxed paper radial gas spring; 35. wax paper radial slide rail; 36. a bearing seat after waxed paper swings; 37. wax paper axial tailstock; 38. wax paper axial plug; 39. a waxed paper roll core shaft; 40. wax paper roll fixing cone head; 41. wax paper roll adjustable cone head; 42. wax paper adjustable back-to-back; 43. wax paper universal wheel coupling; 44. a waxed paper driving motor; 45. an auxiliary frame; 46. auxiliary side guiding rotary cone head; 47. auxiliary damping paired rollers; 48. an air suction plate; 49. a longitudinal cutting station; 50. eccentric paired rollers; 51. a longitudinal cutter; 52. a longitudinal knife blade; 53. a middle supporting plate; 54. an intermediate process static eliminator; 55. an intermediate conveyor belt; 56. an intermediate process mechanical adsorption hand; 57. arranging a swinging bottom support; 58. a finishing frame; 59. finishing an eccentric cam shaft; 60. arranging a conveyor belt; 61. arranging a top tuyere plate; 62. arranging, adsorbing and feeding mechanical arms; 63. arranging and adsorbing a feeding suction nozzle; 64. finishing the belt with a process groove; 65. arranging a forward telescopic rotary blocking head; 66. arranging a blowing nozzle lifting seat; 67. an auxiliary blowing nozzle is arranged; 68. arranging a side-standing splayed rotary vertical rod; 69. a cutting mechanical arm; 70. cutting the rotary cutter; 71. cutting an oblique channel; 72. cutting, rotating and obliquely moving a baffle rod; 73. cutting the lateral positioning block; 74. a cutting auxiliary manipulator; 75. cutting a cutting pressing head; 76. cutting a follow-up displacement manipulator; 77. cutting the movable lath; 78. cutting auxiliary process steps; 79. cutting and outputting an adsorption head; 80. a standard positioning groove; 81. a vertical process through hole; 82. a middle placement station; 83. taking out the base from the drawing; 84. lifting the ejector rod of the drawing; 85. feeding a manipulator; 86. feeding a drawing finger; 87. sinking the feeding process; 88. feeding a swing arm; 89. a feeding station; 90. a strip conveyor belt; 91. an upper eccentric press roll; 92. a lower eccentric top roller; 93. opening the manipulator head; 94. opening the lower fixed arm; 95. opening the upper hinged arm; 96. opening the upper swing turning arm; 97. opening the guide groove; 98. and opening the I-shaped guide seat.

Description of the embodiments

As shown in FIGS. 1-9, the drawing archive digital informatization management system of the present embodiment comprises

The design end models and draws production drawings on the basis of industrial design software, and utilizes computers of all the design ends through a design cloud;

the process end simulates the production and manufacturing process of the designed product based on process programming software, programs a production process, and utilizes computers of each process end through process cloud;

the database is provided with an electronic diagram imported by the design end, process data imported by the process end and a physical list of products;

the technical server is used as an upper computer of the design end and the process end and is connected with the database;

the numerical control server is used for storing the numerical control programming of each machine tool and is connected with a numerical control programming library and a technical server through a network or hardware;

the production server is connected with the technical server through an interface or a network and is used for organizing production scheduling among departments; the production workshop is used for issuing production commands according to a production server and downloading drawings through a technical server to arrange production; the numerical control server sends the programming to a corresponding numerical control machine tool, and the numerical control machine tool adjusts the scheduling programming according to actual conditions to carry out production and processing;

And the wax pattern printer prints the database data through the technical server and stores the database data into a wax pattern file library.

The drawing archive digital informatization management system of the embodiment comprises a scheme I and/or a scheme II;

the first scheme comprises a frame assembly, a waxed paper feeding device 2 which is arranged on the frame assembly and is prefabricated with coiled printed waxed paper 1, a printer device 4 which prints the printed waxed paper 1 output by the waxed paper feeding device 2 in batches, a printing auxiliary device 3 which cuts off the printed waxed paper 1 of the printer device 4, a sectioned waxed paper output device 5 which cuts off the printed waxed paper 1, a finishing device 6 which carries out the pre-finishing of the output printed waxed paper 1, a transfer device 7 which outputs the printed waxed paper 1 output by the finishing device 6, a cutting head device 9 which receives the transfer device 7 and carries out single Zhang Cai cutting of the printed waxed paper 1 on the cutting swing platform 8, a cutting auxiliary device 10 which presses the printed waxed paper 1 on the cutting swing platform 8, a mould conveying device 11 which is arranged on the output side of the cutting swing platform 8, a mould stroke control lifting head 12 which is arranged at two ends of the mould conveying device 11 stroke, a drawing paper conveying device 14 which is arranged between the starting end of the mould conveying device 11 and the cutting end of the mould conveying device 8 and a drawing paper conveying device 13 which is arranged on the drawing paper conveying platform 11, and a drawing device which is arranged on the drawing machine 11 and a drawing positioning device 15 which is arranged on the drawing end of the drawing device 11;

The printer device 4 is a wax pattern printer;

the second scheme comprises a wax pattern feeding device 16 arranged at the output end of the drawing taking-out device 15 and a bag sealing device arranged at the output end of the wax pattern feeding device 16;

the bag sealing device comprises a strip-shaped conveyor belt 90, a packaging bag feeding device 18, a packaging bag roller set 19, an eccentric feeding pressing roller 20, a plastic bag dividing knife 21, an extrusion pressing roller 22, a plastic bag opening device 23, a plastic bag exhausting pressing roller 24, a plastic bag sealing device 25 and a plastic bag marking machine 26, a plastic bag output belt 27, a stacking manipulator 28 and a stacking warehouse 29, wherein the packaging bag feeding device 18 is arranged at the initial end of the strip-shaped conveyor belt 90 and is pre-rolled with plastic packaging bags 17, the packaging bag roller set 19 is arranged at the output end of the packaging bag feeding device 18 and is used for horizontally feeding the plastic packaging bags 17, the stacking warehouse 29 is arranged at the output end of the stacking manipulator 28 and serves as a wax pattern file library;

the feeding eccentric press roller 20 and the feeding extrusion press roller 22 press the plastic packaging bags 17 on the strip-shaped conveyor belt 90, and the plastic packaging bags 17 are broken into single pieces along the tearing seams of the plastic packaging bags 17 by the plastic bag dividing knife 21; the extrusion force of the extrusion press roller 22 to the plastic packaging bag 17 is larger than or equal to the extrusion force of the eccentric press roller 20 to the plastic packaging bag 17; the rotational speed of the feeding eccentric press roller 20 is slower than the rotational speed of the feeding out press roller 22;

The plastic bag opening device 23 opens the plastic package bag 17 to put in the printing stencil paper 1;

the plastic bag exhaust press roll 24 comprises an elastic rotating roll controlled by a mechanical arm, and the elastic rotating roll extrudes air in the plastic packaging bag 17;

the plastic bag sealing device 25 seals the plastic packaging bag 17;

the plastic bag marking machine 26 attaches a drawing label to the surface of the plastic packaging bag 17.

The printing auxiliary device 3 comprises an auxiliary frame 45, two auxiliary side guiding rotary conical heads 46 symmetrically arranged at the inlet of the auxiliary frame 45 and respectively in rolling friction contact with one side or two sides of the printing waxing paper 1, auxiliary damping pair rollers 47 arranged at one side of the auxiliary side guiding rotary conical heads 46 and used for rolling with two sides of the printing waxing paper 1, an air suction plate 48 arranged at one side of the auxiliary damping pair rollers 47 and positioned below the printer device 4 and used for adsorbing the printing waxing paper 1 during printing, a longitudinal cutting station 49 arranged at one side of the air suction plate 48, at least two groups of eccentric pair rollers 50 arranged at the longitudinal cutting station 49, a longitudinal cutter supporting plate 52 arranged between the eccentric pair rollers 50 and used for supporting the printing waxing paper 1, and a longitudinal cutter 51 arranged above the longitudinal cutter supporting plate 52;

when the printed waxed paper 1 needs to be cut, the eccentric pair roller 50 transversely moves the longitudinal cutting knife 51 to longitudinally cut the printed waxed paper 1 into sections on the upper surface and the lower surface of the embossed waxed paper 1;

The upper eccentric pair roller 50 is not in contact with the upper surface of the printing stencil 1 when the printing stencil 1 passes.

The finishing device 6 comprises an intermediate pallet 53 arranged on one side of an eccentric pair roller 50 of the printing auxiliary device 3 and used for bearing the segmented printing waxed paper 1, an intermediate process static eliminator 54 arranged on the intermediate pallet 53, an intermediate process mechanical adsorption hand 56 arranged on the output side of the intermediate pallet 53 and used for adsorbing the upper surface of the printing waxed paper 1, an intermediate conveyor belt 55 arranged at the stroke end of the intermediate process mechanical adsorption hand 56 and used for placing the printing waxed paper 1, a finishing frame 58 arranged at the terminal end of the intermediate conveyor belt 55, a finishing swing collet 57 arranged on the finishing frame 58 in a swinging manner, a finishing eccentric cam shaft 59 arranged on the finishing frame 58 and used for driving the finishing swing collet 57 to swing, a finishing conveyor belt 60 arranged on the finishing swing collet 57 and used for placing the printing waxed paper 1 output by the intermediate conveyor belt 55 a finishing top nozzle plate 61 controlled by a mechanical arm above the finishing conveyor 60 and used for blowing/sucking the upper surface of the printing wax paper 1 on the finishing conveyor 60, a finishing nozzle lifting seat 66 arranged at one side of the lower swing stroke end of the finishing conveyor 60, a finishing auxiliary air nozzle 67 arranged on the finishing nozzle lifting seat 66 and used for blowing air to a gap between the lower surface of the printing wax paper 1 and the upper surface of the finishing conveyor 60, a finishing upper process groove 64 arranged on the finishing conveyor 60, a finishing forward telescopic rotary baffle head 65 arranged on the finishing top nozzle plate 61 and used for extending the lower end into the finishing upper process groove 64, and a finishing side splayed rotary vertical rod 68 arranged at two sides of the finishing swing bottom bracket 57 and used for guiding the printing wax paper 1 laterally;

The transfer device 7 includes a finishing adsorbing and feeding manipulator 62 provided on one side of the finishing conveyor 60, and a finishing adsorbing and feeding nozzle 63 provided on the finishing adsorbing and feeding manipulator 62 and configured to output the printing stencil 1 on the finishing conveyor 60.

The cutting swing platform 8 receives the printed waxed paper 1 output by the finishing adsorption feeding suction nozzle 63 of the transfer device 7; the cutting swing platform 8 swings obliquely to one corner;

a cutting oblique channel 71 is obliquely arranged on the cutting swing platform 8 along the oblique swing direction, a cutting rotary oblique moving baffle rod 72 which is movably arranged on the cutting oblique channel 71 and is used for supporting the printing waxed paper 1 is arranged on the cutting swing platform 8, and a cutting lateral positioning baffle 73 which is used for supporting the side edge of the printing waxed paper 1 is arranged on the cutting swing platform 8;

the cutting head device 9 comprises a cutting rotary mechanical arm 69 arranged on one side of the cutting swing platform 8 through a mechanical arm and a cutting rotary cutter 70 which is arranged at the lower end of the cutting rotary mechanical arm 69 in a transverse and longitudinal changing manner and is used for cutting the printing waxed paper 1 on the cutting swing platform 8 into single sheets;

the cutting auxiliary device 10 comprises a cutting auxiliary manipulator 74 arranged on the output side of the cutting swing platform 8 through a manipulator, a cutting pressing head 75 arranged on the cutting auxiliary manipulator 74 and used for pressing down the upper surface of the printed waxed paper 1 to be cut, a cutting follow-up displacement manipulator 76 arranged on the cutting auxiliary manipulator 74 through the manipulator, and a cutting moving layering plate 77 arranged on the cutting follow-up displacement manipulator 76 and used for pressing down the cutting line between the adjacent printed waxed papers 1 to be cut;

The cutting rotary cutter 70 passes between adjacent cutting moving bead plates 77;

the drawing feeding manipulator device 13 comprises a cutting output adsorption head 79 which is controlled by a manipulator and used for adsorbing the upper surface of the printing waxed paper 1;

at least five standard positioning grooves 80 which are matched according to the sizes of the drawings A0-A4 and a middle placing station 82 for temporarily storing the printed waxed paper 1 are arranged on the drawing classification positioning mould 14, and vertical process through holes 81 are arranged at least at the four corners and the center of the standard positioning grooves 80; when the drawing classifying and positioning mould 14 is positioned at the beginning end of the mould conveying device 11, the single printing waxed paper 1 fed by the cutting output adsorption head 79 is accepted;

the mold conveying device 11 comprises a conveyor belt, a conveyor chain or a linear reciprocating conveying platform;

the drawing extraction device 15 comprises a drawing extraction base 83 arranged right below the terminal end of the mould conveying device 11, and a drawing lifting ejector rod 84 which is arranged on the drawing extraction base 83 and used for ascending and entering the vertical process through hole 81 to push the stacking drawing in the standard positioning groove 80 out of the standard positioning groove 80; the drawing lifting ejector rods 84 at four corners extend to a height higher than that of the drawing lifting ejector rods 84 at the center;

the wax pattern feeding device 16 comprises a feeding manipulator 85 arranged on one side of the terminal end of the mould conveying device 11, a feeding swing arm 88 arranged on the feeding manipulator 85, and a feeding pattern taking finger 86 arranged on the feeding swing arm 88 and used for inserting a gap between adjacent drawing lifting ejector rods 84;

A feeding station 89 on the strip conveyor 90 corresponding to the output of the wax pattern feeding device 16,

the feeding eccentric press roller 20 includes an upper eccentric press roller 91 and a lower eccentric top roller 92; when the plastic bag dividing knife 21 cuts the band-shaped plastic packaging bags 17 into single plastic packaging bags 17, the upper eccentric pressing roller 91 is in pressure contact with the upper surface of the plastic packaging bags 17, and the lower eccentric top roller 92 is in pressure contact with the lower surface of the upper section of the strip-shaped conveyor belt 90, so that the plastic packaging bags 17 are in pressure contact;

the extrusion press roller 22 is sent out to be in rolling contact with the plastic packaging bag 17;

at the feeding station 89, the plastic bag opening device 23 comprises an opening manipulator head 93 arranged on a manipulator, an opening lower fixed arm 94 and an opening upper hinged arm 95 arranged on the opening manipulator head 93, an opening upper push rod arranged on the opening manipulator head 93, an opening I-shaped guide seat 98 arranged on the opening upper push rod, an opening upper swing direction-changing arm 96 with one end connected with the opening upper hinged arm 95, and an opening guide groove 97 arranged at the root of the opening upper swing direction-changing arm 96;

the middle part of the opening upper swing turning arm 96 is hinged on the opening manipulator head 93;

the open I-shaped guide seat 98 is meshed with the open guide groove 97;

a longitudinal gap is provided between the strip conveyor belts 90;

When the lower fixing arm 94 is opened and the upper hinged arm 95 is closed, the suction nozzle on the lower surface of the upper hinged arm 95 is in suction contact with the upper surface of the plastic packaging bag 17, and the suction nozzle of the lower fixing arm 94 is used for suction contact with the lower surface of the plastic packaging bag 17 through a longitudinal gap; the upper hinged arm 95 is opened to draw the plastic packaging bag 17 to swing upwards to open the opening of the plastic packaging bag 17, the wax pattern feeding device 16 feeds the piled printed waxed paper 1 into the opened plastic packaging bag 17, and the feeding swing arm 88 swings downwards to slide the piled printed waxed paper 1 into the plastic packaging bag 17 and separate the piled printed waxed paper from the plastic packaging bag 17.

The cutting swing platform 8 is distributed with air holes; a nozzle for blowing air downwards is arranged on the cutting rotary mechanical arm 69; a cutting auxiliary process step 78 or a chamfer avoiding contact with the cutting rotary knife 70 is provided on the cutting movable strip plate 77;

the length of the cutting movable strip plate 77 is longer than the long side of the A0 drawing;

a feeding process dip 87 is arranged on the upper surface of a feeding drawing finger 86 contacted with the printing waxed paper 1;

the elastic rotating roller is a sponge, rubber or brush roller;

the plastic bag sealing device 25 comprises a thermoprinting machine and a tape machine;

the drawing number label is an intelligent label or a bar code;

The strip conveyor 90 is a stainless steel strip.

The drawing file digital informatization management system of the embodiment comprises a waxed paper feeding device 2, the wax paper feeding device comprises a wax paper feeding frame 30, a wax paper rotating main shaft 31 transversely arranged on the wax paper feeding frame 30, a wax paper dividing bracket 32 of which an dividing array is arranged on the wax paper rotating main shaft 31, a wax paper driving motor 44 transversely arranged at the head end of the wax paper dividing bracket 32, a wax paper radial slide rail 35 longitudinally arranged at the tail end of the wax paper dividing bracket 32, a wax paper swinging back bearing seat 36 of which the bottom is longitudinally arranged on the wax paper radial slide rail 35 and the middle part is provided with a rotating shaft, a wax paper radial adjusting push rod 33 arranged on the wax paper dividing bracket 32 and longitudinally pushing one side of the wax paper swinging back bearing seat 36, a wax paper radial gas spring 34 arranged on the wax paper dividing bracket 32 and longitudinally connected with the other side of the wax paper swinging back bearing seat 36, a wax paper radial gas spring 34 the wax paper rolling device comprises a wax paper axial tail seat 37 arranged on one lateral side of the tail end surface of a wax paper swinging back bearing seat 36, a wax paper rolling mandrel 39 with the tail part detachably arranged on the wax paper swinging back bearing seat 36, a wax paper rolling fixing cone head 40 fixedly arranged on the wax paper rolling mandrel 39, a wax paper axial plug 38 arranged on the wax paper axial tail seat 37 and used for longitudinally pushing the tail end surface of the wax paper rolling mandrel 39, a wax paper adjustable cone head 41 movably arranged on the wax paper rolling mandrel 39, a wax paper adjustable back nut 42 arranged on the wax paper rolling mandrel 39 and used for axially pushing the wax paper adjustable cone head 41, and a wax paper universal wheel coupler 43 arranged on the wax paper indexing bracket 32 and used for flexibly connecting the head end of the wax paper rolling mandrel 39 with a wax paper driving motor 44;

The coiled printed waxed paper 1 is sleeved on a waxed paper roll fixing conical head 40 and a waxed paper roll adjustable conical head 41.

Firstly, a designer imports a drawing into a database for backup through a design end, a craftsman imports a process drawing customized by the design drawing and a bill of materials into the database for backup through a process end, and the craftsman imports numerical control programming into the database according to the process drawing; then, the technical server is in one-way butt joint with the production server to download the electronic drawing and the process drawing; secondly, the production part arranges production according to the electronic drawing and the process picture;

in addition, the technical server retrieves the electronic drawings and the process drawings in the database, typesets the electronic drawings and the process drawings through a working machine of a wax pattern printer, prints and produces the wax pattern, and stores the wax pattern into a wax pattern archive.

The digital management method of the drawing file of the embodiment, the wax pattern management method, by means of the digital informatization management system of the drawing file, comprises the following steps of printing, cutting and stacking the coiled printing wax paper 1 and/or packaging and storing the printing wax paper 1 with uniform size specification after finishing;

the method comprises the following steps by means of a management system in the steps of printing, cutting and palletizing the roll printing waxed paper 1;

Firstly, printing waxed paper 1 is coiled and mounted on a waxed paper feeding device 2; then, the printing stencil 1 is fed onto the printing auxiliary device 3 and advanced, and at the same time, the printer device 4 prints the printing stencil 1; secondly, the segmented waxed paper output device 5 carries out longitudinal segmented cutting on the printed waxed paper 1 and outputs the cut waxed paper; thirdly, the finishing device 6 performs pre-finishing on the output printed waxed paper 1; subsequently, the transfer device 7 conveys the pre-finished printing waxed paper 1 to the cutting swing platform 8; subsequently, when the cutting auxiliary device 10 presses the printing stencil 1, the cutting head device 9 performs a sheet Zhang Caiqie on the printing stencil 1; then, the drawing feeding mechanical arm device 13 sequentially places the single printing waxed paper 1 and the drawing number sequence on the drawing classification positioning mould 14, and classifies the single printing waxed paper 1 according to the drawing size; the mould conveying device 11 outputs the printed waxed paper 1 on the drawing classification positioning mould 14 in a stacking way; then, the drawing extraction device 15 extracts the stacking output of the printed stencil paper 1 from the drawing classification positioning mould 14; the method specifically comprises the following steps:

step one, sleeving coiled printing waxed paper 1 on a waxed paper roll fixing conical head 40 and a waxed paper roll adjustable conical head 41 by means of a waxed paper feeding device 2, axially propping up the waxed paper roll adjustable conical head 41 through a waxed paper adjustable back nut 42, buckling a waxed paper swing back bearing seat 36, and rotationally propping up the tail of a waxed paper roll mandrel 39 through a waxed paper axial plug 38; when the longitudinal conveying of the roll printing waxed paper 1 deflects, the deflection of the roll printing waxed paper 1 is radially adjusted and compensated by the waxed paper radial adjusting push rod 33, and the radial adjusting error is eliminated by the waxed paper radial air spring 34; when the roll on one waxed paper dividing support 32 is printed with waxed paper 1, the waxed paper rotating main shaft 31 is rotated to realize the replacement of the waxed paper roll mandrel 39;

Step two, by means of the printing auxiliary 3 and the printer device 4; firstly, the longitudinal conveying of the rolled printing waxed paper 1 is rectified by the transfer adjustment of the auxiliary side guiding rotary cone head 46; then, the auxiliary damping pair roller 47 conveys the roll printing stencil paper 1 longitudinally, the suction plate 48 sucks the roll printing stencil paper 1, and the printer device 4 prints a drawing; secondly, after printing, the air suction plate 48 reversely blows air, the printing waxed paper 1 is conveyed to a longitudinal cutting station 49 through a rotary rod or a mechanical arm at the output side of the printer device 4, the eccentric pair roller 50 extrudes the printing waxed paper 1, and the printing waxed paper 1 on the longitudinal knife supporting plate 52 is longitudinally cut through the longitudinal cutting knife 51; next, the cut waxed paper 1 is sent to the middle supporting plate 53 by a pair of rollers or a mechanical arm, and static electricity is eliminated by the static eliminator 54 in the middle process;

step one, by means of the finishing device 6, firstly, the intermediate process mechanical adsorption hand 56 adsorbs the printing waxing paper 1 onto the intermediate conveyor belt 55, and sends the printing waxing paper 1 onto the finishing conveyor belt 60 which is turned by the finishing eccentric cam shaft 59 to be in an inclined state, and meanwhile, the printing waxing paper 1 is guided laterally by the finishing side standing splay rotary standing stick 68; secondly, after front blocking is carried out by arranging the lower end of the forward telescopic rotary blocking head 65 in the process groove 64 on the arranging belt, air is blown to the upper surface of the printing waxed paper 1 by arranging the top air nozzle plate 61; thirdly, the finishing auxiliary blowing nozzle 67 blows air to the lower surface of the printing waxed paper 1; later, the finishing eccentric cam shaft 59 changes the inclined finishing conveyor 60 to a horizontal state; next, the printed stencil sheet 1 is fed onto the cutting swing platform 8 in an angular inclined state by the finishing suction feeding nozzle 63 on the finishing suction feeding manipulator 62;

Step four, by means of the cutting head device 9 and the auxiliary cutting device 10; firstly, adjusting the position of the cutting rotary oblique movement stop lever 72 according to the size of the printing waxed paper 1; then, on the cutting swing platform 8 in the angle inclined state, the printing waxed paper 1 slides to the cutting rotation inclined moving baffle rod 72 and the cutting lateral positioning baffle 73, and the printing waxed paper 1 is printed; again, the cutting-out pressing head 75 presses down the upper surface to be cut out of the single piece of printed stencil paper 1, and the cutting-out moving platen 77 presses down both sides of the cut line between adjacent cut out pieces of printed stencil paper 1; next, the cutting rotary cutter 70 cuts the printed waxed paper 1 singly Zhang Cai according to the drawing sequence at typesetting, and the cutting rotary cutter 70 cuts the cutting warps and wefts respectively by rotating the cutting rotary mechanical arm 69 ninety degrees;

step five, firstly, a cutting output adsorption head 79 is used for placing the single printed waxed paper 1 into a corresponding standard positioning groove 80 according to the figure number for stacking, and through a middle placing station 82, secondary stacking is realized for transferring the printed waxed paper 1 with the wrong figure number sequence; then, the mould conveying device 11 outputs the piled printed waxed paper 1; secondly, the drawing lifting ejector rod 84 penetrates through the vertical process through hole 81 to push the stacking drawing positioned in the standard positioning groove 80 upwards to leave the standard positioning groove 80;

A step of packaging and storing the finished printed waxed paper 1 with uniform size, the method comprising the following steps by means of a management system,

firstly, the plastic packaging bag 17 is pre-rolled by the packaging bag feeding device 18; then, the packaging bag roller group 19 horizontally conveys the plastic packaging bag 17 onto the strip conveyor belt 90 and advances; secondly, the feeding eccentric press roller 20 and the feeding extrusion press roller 22 extrude the plastic packaging bags 17, the plastic packaging bags 17 are separated along the tearing line by the plastic bag dividing knife 21, and simultaneously, the feeding extrusion press roller 22 rotates forwards, so that the front plastic packaging bags 17 are torn into single pieces; again, the strip conveyor 90 conveys the plastic packaging bags 17 to the feeding station 89, and the plastic packaging bags 17 are opened by the plastic bag opening device 23; later, the wax pattern feeding device 16 feeds the pre-piled printed wax paper 1 into the plastic packaging bag 17; then, the plastic bag exhausting press roller 24 is used for rolling and exhausting the upper surface of the plastic packaging bag 17; after that, the plastic bag sealing device 25 performs the sealing operation of the plastic packaging bag 17; then, the plastic bag marking machine 26 marks the plastic packaging bag 17; finally, the marked plastic packaging bags 17 are output through a plastic bag output belt 27 and are placed on a stacking warehouse 29 through a stacking manipulator 28;

In the feeding step, firstly, a feeding drawing finger 86 is inserted into an adjacent drawing lifting ejector rod 84 to output the printing waxed paper 1, and the center of the printing waxed paper 1 is lower than four corners by utilizing a feeding technology sinking 87; then, at the feeding station 89, the lower fixing arm 94 is opened to enter the longitudinal gap of the strip-shaped conveyor belt 90 and absorb the lower surface of the plastic packaging bag 17, and meanwhile, the upper hinging arm 95 is opened to absorb the upper surface of the plastic packaging bag 17 for sucking; secondly, the open I-shaped guide seat 98 pushes the open upper swing turning arm 96 to swing through the open guide groove 97, so that the open upper hinged arm 95 swings upwards to open; thirdly, the feeding swing arm 88 swings downwards, and the printing waxed paper 1 is obliquely fed into the plastic packaging bag 17; next, the suction nozzle is reversely blown, and the plastic package 17 is separated from the suction nozzle.

When the method and the device are used, the management of the digital drawing is realized through the digital network, and the production of an information control enterprise is realized. The automatic feeding, printing, cutting, finishing, secondary Shan Zhangcai cutting, stacking, packaging, loading, packaging, marking and storing of the printing waxed paper 1 are realized. The plastic bag marking machine 26 facilitates intelligent identification and storage, the waxed paper rotating main shaft 31, the waxed paper dividing support 32 realizes the installation of the used coiled materials, normal printing work is not affected, the waxed paper radial adjusting push rod 33 realizes the correction function, the waxed paper radial air spring 34 realizes the adjustment clearance elimination, vibration reduction, the waxed paper radial sliding rail 35 and the rotating shaft realize the angle adjustment of the waxed paper swinging rear bearing seat 36, the waxed paper axial tail seat 37 and the waxed paper axial top 38 realize the jacking bearing, the waxed paper universal wheel coupler 43 realizes flexible adjustment, the waxed paper driving motor 44 realizes driving, the auxiliary frame 45 realizes supporting, the auxiliary side guiding rotary cone 46 realizes jacking by utilizing taper, the auxiliary damping is realized driving the coiled materials to move forward by the roller 47, the air suction plate 48 can blow and suck, the longitudinal cutting station 49 realizes segmentation, the eccentric pair roller 50 realizes extrusion during cutting, the conveying is not affected during cutting, and the longitudinal cutting knife 51 can be a conventional knife. The invention realizes functions such as adsorption and loosening or positioning by utilizing air suction and air blowing, realizes functions such as compaction and swinging by utilizing eccentricity, can select a six-axis or reasonable degree-of-freedom manipulator according to requirements, finishes the process groove 64 on a belt, avoids abrasion with a conveyor belt, realizes positioning adjustment by utilizing friction force by rotating a baffle head, avoids extrusion of paper, and finishes an auxiliary air blowing nozzle 67 to facilitate separation of a drawing sheet from a platform, simultaneously prevents curling, finishes a side-standing splayed rotary vertical rod 68 to realize lateral guiding, cuts an inclined channel 71, cuts an inclined movable baffle rod 72 to realize position adjustment, realizes automatic positioning alignment by utilizing angle inclination, cuts a movable pressing plate 77, cuts a pressing head 75, cuts a movable displacement manipulator 76 to simulate actual work, realizes automatic cutting, cuts an auxiliary process step 78 to avoid contact with a cutter, makes a vertical process through hole 81 convenient for making jack-up, and lifts a push rod 84 so as to conveniently jack-up the drawing sheet, and uses a feeding process dip 87 to prevent the drawing sheet from falling down, and the size of the positioning groove is larger than the standard drawing sheet size, and realizes large opening of a plastic bag inlet by opening, thereby feeding a wax image, sealing and preventing oxidization, stacking and stacking, thus, and can increase the functions of medicament drying and can be added.

Claims (5)

1. A drawing archive digital informatization management system is characterized by comprising

The printing machine comprises a frame assembly, a waxed paper feeding device (2) which is arranged on the frame assembly and is prefabricated with coiled printing waxed paper (1), a printer device (4) which prints the printing waxed paper (1) output by the waxed paper feeding device (2) in batches, a printing auxiliary device (3) which cuts off the printing waxed paper (1) of the printer device (4), a segmentation waxed paper output device (5) which outputs the printing waxed paper (1), a finishing device (6) which performs pre-finishing on the output printing waxed paper (1), a transfer device (7) which outputs the printing waxed paper (1) output by the finishing device (6), a cutting swing platform (8) which receives the transfer device (7) and carries the printing waxed paper (1), a cutting head device (9) which cuts the printing waxed paper (1) on the cutting swing platform (8) singly Zhang Cai, a cutting auxiliary device (10) which presses the printing waxed paper (1) on the cutting swing platform (8), a cutting head (11) which is arranged on the output side of the cutting swing platform (8), a cutting head (11) which is arranged on the cutting head of the cutting device, and a drawing paper feeding device (11) which is arranged on the end of a drawing paper feeding device (13) which is arranged on the end of a drawing paper feeding device (12) which is arranged on one side of the cutting head (12) which is arranged between the cutting head and the transfer device (11) and the end of the drawing device The drawing classification positioning clamping fixture (14) is arranged on the clamping fixture conveying device (11), and the drawing taking-out device (15) is arranged at the end point of the clamping fixture conveying device (11);

The printer device (4) is a wax pattern printer;

the waxed paper feeding device (2) comprises a waxed paper feeding rack (30), a waxed paper rotating main shaft (31) transversely arranged on the waxed paper feeding rack (30), a waxed paper dividing support (32) arranged on the waxed paper rotating main shaft (31) in an dividing array manner, a waxed paper driving motor (44) transversely arranged at the head end of the waxed paper dividing support (32), a waxed paper radial sliding rail (35) longitudinally arranged at the tail end of the waxed paper dividing support (32), a waxed paper swinging rear bearing seat (36) longitudinally sliding at the bottom and provided with a rotating shaft in the middle, a waxed paper radial adjusting push rod (33) arranged on the waxed paper dividing support (32) and longitudinally pushing one side of the waxed paper swinging rear bearing seat (36), a waxed paper radial air spring (34) arranged on the waxed paper dividing support (32) and longitudinally connected with the other side of the waxed paper swinging rear bearing seat (36), a waxed paper axial tail seat (37) arranged on the transverse side of the tail end surface of the waxed paper swinging rear bearing seat (36), a waxed paper mandrel (39) detachably arranged on the tail end of the waxed paper swinging rear bearing seat (36), a waxed paper mandrel (39) fixedly arranged on the waxed paper mandrel (39) and a waxed paper mandrel (40) fixedly arranged on the tail end of the waxed paper mandrel (39) and fixedly arranged on the waxed paper mandrel (39) axially The wax paper universal wheel coupler (43) is arranged on the wax paper indexing bracket (32) and is used for flexibly connecting the head end of the wax paper winding mandrel (39) and a wax paper driving motor (44);

The coiled printed waxed paper (1) is sleeved on the wax paper roll fixing conical head (40) and the wax paper roll adjustable conical head (41);

the printing auxiliary device (3) comprises an auxiliary frame (45), two auxiliary side guiding rotary conical heads (46) symmetrically arranged at the inlet of the auxiliary frame (45) and respectively in rolling friction contact with one side or two sides of the printing waxing paper (1), auxiliary damping paired rollers (47) arranged at one side of the auxiliary side guiding rotary conical heads (46) and used for rolling with two sides of the printing waxing paper (1), an air suction plate (48) arranged at one side of the auxiliary damping paired rollers (47) and positioned below the printer device (4) and used for adsorbing the printing waxing paper (1) during printing, a longitudinal cutting station (49) arranged at one side of the air suction plate (48), at least two groups of eccentric paired rollers (50) arranged at the longitudinal cutting station (49), a longitudinal knife supporting plate (52) arranged between the eccentric paired rollers (50) and used for supporting the printing waxing paper (1), and a longitudinal cutting knife (51) arranged above the longitudinal knife supporting plate (52);

the finishing device (6) comprises an intermediate supporting plate (53) arranged on one side of an eccentric pair roller (50) of the printing auxiliary device (3) and used for bearing the segmented printing waxed paper (1), an intermediate process static eliminator (54) arranged on the intermediate supporting plate (53), an intermediate process mechanical adsorption hand (56) arranged on the output side of the intermediate supporting plate (53) and used for adsorbing the upper surface of the printing waxed paper (1), an intermediate conveyor belt (55) arranged at the stroke end of the intermediate process mechanical adsorption hand (56) and used for placing the printing waxed paper (1), a finishing frame (58) arranged at the terminal end of the intermediate conveyor belt (55), a finishing swing base (57) arranged on the finishing frame (58) in a swinging manner, a finishing eccentric cam shaft (59) arranged on the finishing frame (58) and used for driving the finishing swing base (57) to swing, a finishing conveyor belt (60) arranged on the finishing swing base (57) and used for placing the printing waxed paper (1), a finishing conveyor belt (60) controlled by a mechanical hand above the finishing conveyor belt (60) and used for placing the printing waxed paper (1), and a blowing-down mouth (61) arranged on the upper surface of the finishing waxed paper (1) of the finishing conveyor belt (60), and a lifting mouth (61) arranged at one side of the finishing base and blowing-down end of the finishing mouth (61 The automatic printing wax paper sorting device comprises a sorting auxiliary air blowing nozzle (67) which is arranged on a sorting air blowing nozzle lifting seat (66) and used for blowing air to a gap between the lower surface of the printing wax paper (1) and the upper surface of a sorting conveyor belt (60), a sorting upper process groove (64) which is arranged on the sorting conveyor belt (60), a sorting forward telescopic rotary blocking head (65) which is arranged on a sorting top air blowing nozzle plate (61) and used for enabling the lower end to extend out of the sorting upper process groove (64), and a sorting side vertical splayed rotary vertical rod (68) which is arranged on two sides of a sorting swing bottom bracket (57) and used for guiding the printing wax paper (1) laterally;

The transfer device (7) comprises a finishing adsorption feeding manipulator (62) arranged on one side of the finishing conveyor belt (60) and a finishing adsorption feeding suction nozzle (63) which is arranged on the finishing adsorption feeding manipulator (62) and is used for outputting the printed waxed paper (1) on the finishing conveyor belt (60);

the cutting swing platform (8) receives the printed waxed paper (1) output by the finishing adsorption feeding suction nozzle (63) of the transfer device (7); the cutting swing platform (8) swings obliquely to one corner;

a cutting oblique channel (71) is obliquely arranged on the cutting swing platform (8) along the oblique swing direction, a cutting rotary oblique moving baffle rod (72) which is movably arranged on the cutting oblique channel (71) and is used for supporting the printing waxed paper (1), and a cutting lateral positioning baffle (73) which is used for supporting the side edge of the printing waxed paper (1) is arranged on the cutting swing platform (8);

the cutting head device (9) comprises a cutting rotary mechanical arm (69) arranged at one side of the cutting swing platform (8) through a mechanical arm, and a cutting rotary cutter (70) which is transversely and longitudinally arranged at the lower end of the cutting rotary mechanical arm (69) and is used for cutting the printing waxed paper (1) on the cutting swing platform (8) into single sheets;

The cutting auxiliary device (10) comprises a cutting auxiliary mechanical arm (74) arranged on the output side of the cutting swing platform (8) through a mechanical arm, a cutting pressing head (75) arranged on the cutting auxiliary mechanical arm (74) and used for pressing down the upper surface of the printed waxed paper (1) to be cut, a cutting follow-up displacement mechanical arm (76) arranged on the cutting auxiliary mechanical arm (74) through the mechanical arm, and a cutting movable pressing plate (77) arranged on the cutting follow-up displacement mechanical arm (76) and used for pressing down cutting lines between the adjacent printed waxed papers (1) for cutting the single sheet;

the cutting rotary cutter (70) passes between adjacent cutting movable strip plates (77);

the drawing feeding manipulator device (13) comprises a cutting output adsorption head (79) which is controlled by a manipulator and used for adsorbing the upper surface of the printing waxed paper (1);

at least five standard positioning grooves (80) which are matched according to the sizes of the drawings A0-A4 and a middle placing station (82) for temporarily storing the printed waxed paper (1) are arranged on the drawing classification positioning mould (14), and vertical process through holes (81) are arranged at least at four corners and the center of the standard positioning grooves (80); when the drawing classifying and positioning mould (14) is positioned at the beginning end of the mould conveying device (11), a single printing waxed paper (1) fed by a cutting output adsorption head (79) is received;

The mould conveying device (11) comprises a conveyor belt, a conveyor chain or a linear reciprocating conveying platform;

the drawing taking-out device (15) comprises a drawing taking-out base (83) arranged right below the terminal of the clamping fixture conveying device (11), and a drawing lifting ejector rod (84) which is arranged on the drawing taking-out base (83) and used for ascending into a vertical process through hole (81) to jack a stacking drawing in a standard positioning groove (80) to leave the standard positioning groove (80); the extending height of the drawing lifting ejector rods (84) at four corners is higher than that of the drawing lifting ejector rods (84) at the center;

the wax pattern feeding device (16) comprises a feeding manipulator (85) arranged at one side of the terminal of the mould conveying device (11), a feeding swinging arm (88) arranged on the feeding manipulator (85), and a feeding drawing taking finger (86) arranged on the feeding swinging arm (88) and used for inserting a gap between adjacent drawing lifting ejector rods (84);

when the printed waxed paper (1) needs to be cut, the eccentric pair roller (50) transversely moves the longitudinal cutting knife (51) to longitudinally cut the printed waxed paper (1) into sections on the upper surface and the lower surface of the embossed waxed paper (1);

when the printing waxed paper (1) passes through, the upper eccentric pair roller (50) is not contacted with the upper surface of the printing waxed paper (1);

A feeding station (89) is arranged on the strip-shaped conveyor belt (90) corresponding to the output end of the wax pattern feeding device (16),

the feeding eccentric press roll (20) comprises an upper eccentric press roll (91) and a lower eccentric top roll (92); when the plastic bag dividing knife (21) cuts the strip-shaped plastic packaging bags (17) into single plastic packaging bags (17), the upper eccentric pressing roller (91) is in pressure contact with the upper surface of the plastic packaging bags (17), and the lower eccentric top roller (92) is in pressure contact with the lower surface of the ascending section of the strip-shaped conveying belt (90), so that the plastic packaging bags (17) are in pressure contact;

the extrusion press roller (22) is sent out to be in rolling contact with the plastic packaging bag (17);

in the feeding station (89), the plastic bag opening device (23) comprises an opening manipulator head (93) arranged on a manipulator, an opening lower fixed arm (94) and an opening upper hinged arm (95) arranged on the opening manipulator head (93), an opening upper push rod arranged on the opening manipulator head (93), an opening I-shaped guide seat (98) arranged on the opening upper push rod, an opening upper swing direction-changing arm (96) with one end connected with the opening upper hinged arm (95) and an opening guide groove (97) arranged at the root of the opening upper swing direction-changing arm (96);

The middle part of the opening upper swing turning arm (96) is hinged on the opening manipulator head (93);

the open I-shaped guide seat (98) is meshed with the open guide groove (97);

a longitudinal gap is arranged between the strip-shaped conveyor belts (90);

when the lower fixed arm (94) is unfolded and the upper hinged arm (95) is unfolded to be parallel to each other, the suction nozzle on the lower surface of the upper hinged arm (95) is unfolded to be in suction contact with the upper surface of the plastic packaging bag (17), and the suction nozzle of the lower fixed arm (94) is unfolded to be in suction contact with the lower surface of the plastic packaging bag (17) through the longitudinal gap; the upper hinged arm (95) is opened to absorb the plastic packaging bag (17) and swing upwards to open the opening of the plastic packaging bag (17), the wax pattern feeding device (16) feeds the piled printed wax paper (1) into the plastic packaging bag (17) with the opening, and the feeding swing arm (88) swings downwards to slide the piled printed wax paper (1) into the plastic packaging bag (17) and separate the piled printed wax paper from the plastic packaging bag (17);

the cutting swing platform (8) is distributed with air holes; a downward blowing tuyere is arranged on the cutting rotary mechanical arm (69); a cutting auxiliary process step (78) or a chamfer which is prevented from being contacted with the cutting rotary cutter (70) is arranged on the cutting movable layering plate (77);

The length of the cutting movable strip plate (77) is longer than the long side of the A0 drawing;

a feeding process dip (87) is arranged on the upper surface of a feeding drawing finger (86) contacted with the printing waxed paper (1);

the plastic bag sealing device (25) comprises a thermoprinting machine and a tape machine.

2. The drawing archive digital informatization management system according to claim 1, wherein:

the elastic rotating roller is a sponge, rubber or brush roller.

3. The drawing archive digital informatization management system of claim 1, wherein the drawing number label is an intelligent label or a bar code.

4. The drawing archive digital informationized management system of claim 1, wherein the strip-shaped conveyor belt (90) is a stainless steel belt.

5. The drawing archive digital informatization management system of claim 1, wherein the system further comprises a design end, wherein the design end is used for modeling and drawing production drawings for design products based on industrial design software and utilizing computers of the design ends through a design cloud;

the process end simulates the production and manufacturing process of the designed product based on process programming software, programs a production process, and utilizes computers of each process end through process cloud;

The database is provided with an electronic diagram imported by the design end, process data imported by the process end and a physical list of products;

the technical server is used as an upper computer of the design end and the process end and is connected with the database;

the numerical control server is used for storing the numerical control programming of each machine tool and is connected with a numerical control programming library and a technical server through a network or hardware;

the production server is connected with the technical server through an interface or a network and is used for organizing production scheduling among departments; the production workshop is used for issuing production commands according to a production server and downloading drawings through a technical server to arrange production; the numerical control server sends the programming to a corresponding numerical control machine tool, and the numerical control machine tool adjusts the scheduling programming according to actual conditions to carry out production and processing;

and the wax pattern printer prints the database data through the technical server and stores the database data into a wax pattern file library.

Images