CN114274005A - Automatic plate cutting and edge grinding line - Google Patents

Abstract

The invention discloses an automatic board cutting and edge grinding line, which is provided with a connecting line board feeding machine, an automatic board feeding machine and a cutting and grinding host machine, the automatic plate feeding machine comprises a round angle machine, a marking machine and a laser thickness measuring laser carving machine, wherein the connecting line plate feeding machine is used for automatic feeding, the input end of the automatic plate feeding machine is connected with the output end of the connecting line plate feeding machine, the automatic plate feeding machine is used for automatically conveying plates to a cutting and grinding host machine, the input end of the cutting and grinding host machine is connected with the output end of the automatic plate feeding machine, the cutting and grinding host machine is used for cutting and edging the plates, the input end of the round angle machine is connected with the output end of the cutting and grinding host machine, the round angle machine is used for chamfering corners of the plates, the input end of the marking machine is connected with the output end of the round angle machine, the marking machine is used for marking the plates, the input end of the laser thickness measuring laser carving machine is connected with the output end of the marking machine, and the laser thickness measuring laser carving machine is used for the plates. The automatic plate cutting and edge grinding line has the advantages of high working efficiency and high plate manufacturing precision.

Description

Automatic plate cutting and edge grinding line

Technical Field

The invention relates to the technical field of production lines, in particular to an automatic plate cutting and edge grinding line.

Background

The application range of the board is very wide, such as industries of building templates, indoor decoration, various furniture, office supplies, combined sound boxes, packaging cloth exhibition and the like. In order to meet the actual use size requirement of the plate, the plate needs to be cut before construction, and in order to ensure the smoothness of the edge of the plate, the edge of the plate needs to be ground before construction. At present, the processing of cutting of panel is accomplished by solitary guillootine, the edging of panel is handled and is accomplished by solitary edging machine, guillootine and edging machine are two independent machines simultaneously, panel is whole to shift it to edging machine department through the loader and is handled after cutting the completion, work efficiency is very low, in addition, because the panel after cutting does not have timely edging and handles, long-time stay can take place the change of size because of the reason of expend with heat and contract with cold after cutting panel, the later stage comes again and carries out the edging to these panels and handles, finally with the precision of image panel.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problems existing in the background technology, the automatic plate cutting and edge grinding line has the advantages of high working efficiency and high plate manufacturing precision.

The technical scheme adopted by the invention for solving the technical problems is as follows: an automatic plate cutting and edge grinding line is provided with a connecting wire plate feeding machine, an automatic plate feeding machine, a cutting and grinding host machine, a fillet machine, a marking machine and a laser thickness measuring laser marking machine, wherein plates sequentially pass through the connecting wire plate feeding machine, the connecting wire plate feeding machine is used for automatic feeding, the input end of the automatic plate feeding machine is connected with the output end of the connecting wire plate feeding machine, the automatic plate feeding machine is used for automatically feeding the plates to the cutting and grinding host machine, the input end of the cutting and grinding host machine is connected with the output end of the automatic plate feeding machine, the cutting and grinding host machine is used for cutting and edge grinding the plates, the input end of the fillet machine is connected with the output end of the cutting and grinding host machine, the fillet machine is used for chamfering corners of the plates, the input end of the marking machine is connected with the output end of the fillet machine, the input end of the thickness measuring laser marking machine is connected with the output end of the laser marking machine, the laser thickness measuring laser carving machine is used for carving characters on the plate.

Further specifically, according to the technical scheme, the connecting line plate conveying machine is provided with the servo precision positioning mechanism, and the servo precision positioning mechanism is used for accurately positioning the plate on the connecting line plate conveying machine and accurately conveying the plate to the automatic plate conveying machine.

Further specifically, in the above technical solution, the cutting and grinding host includes a CCD image recognition area, an automatic correction area and a precision plate cutting area, the CCD image recognition area is used for recognizing the plate image conveyed from the automatic plate conveying machine, the automatic correction area is used for automatically correcting the position of the plate, and the precision plate cutting area is used for precisely cutting the plate.

Further specifically, in the above technical solution, the number of the CCD image recognition areas is two, the two CCD image recognition areas are symmetrically distributed at the input end of the cutting and grinding host, the automatic correction area is located in the middle area of the two CCD image recognition areas, the precision board cutting area is distributed at the output end of the cutting and grinding host, and the automatic correction area is located in the middle position of one end of the precision board cutting area.

Further specifically, in the above technical solution, the fillet machine includes a first conveying mechanism, a first servo conveying mechanism, a fillet mechanism set, and a second conveying mechanism set which are right opposite to the cutting and grinding main machine, the first conveying mechanism is located at an input end of the fillet machine, the second conveying mechanism is located at an output end of the fillet machine, the first servo conveying mechanism and the fillet mechanism set are located in a middle area of the fillet machine, the plate sequentially passes through the first conveying mechanism, the first servo conveying mechanism and the second conveying mechanism, and the fillet mechanism set is used for rounding a corner of the plate located at the first servo conveying mechanism.

Further specifically, in the above technical solution, the number of the fillet mechanism sets is two, the two fillet mechanism sets are symmetrically distributed, and the first servo transmission mechanism is located at a middle position of the two fillet mechanism sets.

Further specifically, in the above technical solution, the marking machine includes a front conveying mechanism, an automatic marking mechanism, and a second servo conveying mechanism, where the front conveying mechanism is located at an input end of the marking machine, the automatic marking mechanism and the second servo conveying mechanism are located at an output end of the marking machine, and the automatic marking mechanism is used for marking the plate located on the second servo conveying mechanism.

Further specifically, in the above technical solution, the number of the automatic marking mechanisms is two, the two automatic marking mechanisms are symmetrically distributed, and the second servo transmission mechanism is located at a middle position of the two automatic marking mechanisms.

Further specifically, in the above technical solution, the laser thickness measuring laser engraving machine includes an alignment mechanism set, a conveyor mechanism set, a laser thickness measuring set, and a laser engraving character set, which are right opposite to the marking machine, the alignment mechanism set and the conveyor mechanism set are located at an input end of the laser thickness measuring laser engraving machine, the laser thickness measuring set and the laser engraving character set are located at an output end of the laser thickness measuring laser engraving machine, and the laser engraving character set is used for performing laser engraving processing on a plate subjected to laser thickness measurement by the laser thickness measuring set.

Further specifically, in the above technical solution, the conveyor mechanism groups are transversely distributed and span over the alignment mechanism group, and the alignment mechanism group and the conveyor mechanism group are used in combination to convey the plate material to the laser thickness measuring group and the laser writing group.

The invention has the beneficial effects that: the automatic plate cutting and edge grinding line provided by the invention is reasonable in structure, the connecting plate feeding machine, the automatic plate feeding machine, the cutting and grinding host machine, the circular angle machine, the marking machine and the laser thickness measuring laser carving machine are highly integrated together, and a series of processes of cutting and grinding, chamfering, marking and laser carving are sequentially carried out on a plate, so that the automatic plate cutting and edge grinding line has the advantages of high working efficiency and high plate manufacturing precision.

Drawings

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

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a first schematic structural view of a wired board conveyor;

FIG. 3 is a second schematic structural view of a wired board conveyor;

FIG. 4 is a first schematic structural view of an automatic plate feeder;

FIG. 5 is a second schematic structural view of the automatic plate feeder;

FIG. 6 is a schematic structural view of a cutting and grinding main machine;

FIG. 7 is a schematic structural view of a rounding machine;

FIG. 8 is a schematic view of the internal structure of FIG. 7;

FIG. 9 is a schematic view of the construction of the marking machine;

FIG. 10 is a schematic view of the internal structure of FIG. 9;

FIG. 11 is a schematic structural diagram of a laser thickness-measuring laser carving machine;

fig. 12 is a schematic view of the internal structure of fig. 11.

The reference numbers in the drawings are: 1. connecting and conveying the plate machine; 2. automatically feeding the plate machine; 3. cutting and grinding the main machine; 4. a rounding machine; 5. a marking machine; 6. a laser thickness measuring laser carving machine; 11. a servo precision positioning mechanism; 31. a CCD image recognition area; 32. an automatic correction area; 33. a precision board cutting area; 41. a first conveying mechanism; 42. a first servo transmission mechanism; 43. a round corner mechanism group; 44. a second conveying mechanism group; 51. a front conveying mechanism; 52. an automatic marking mechanism; 53. a second servo transmission mechanism; 61. arranging a mechanism group; 62. a conveyor mechanism group; 63. laser thickness measurement group; 64. the word set is laser-etched.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-12, the automatic plate cutting and edge grinding line of the invention comprises a connecting wire plate feeding machine 1, an automatic plate feeding machine 2, a cutting and grinding host machine 3, a fillet machine 4, a marking machine 5 and a laser thickness measuring laser marking machine 6, wherein the connecting wire plate feeding machine 1 is used for automatic feeding, the input end of the automatic plate feeding machine 2 is connected with the output end of the connecting wire plate feeding machine 1, the automatic plate feeding machine 2 is used for automatically feeding a plate to the cutting and grinding host machine 3, the input end of the cutting and grinding host machine 3 is connected with the output end of the automatic plate feeding machine 2, the cutting and grinding host machine 3 is used for cutting and edge grinding the plate, the input end of the fillet machine 4 is connected with the output end of the cutting and grinding host machine 3, the fillet machine 4 is used for chamfering corners of the plate, the input end of the marking machine 5 is connected with the output end of the fillet machine 4, the marking machine 5 is used for marking the plate, the input end of the thickness measuring laser marking machine 6 is connected with the output end of the marking machine 5, and the laser thickness measuring laser carving machine 6 is used for carving characters on the plate.

The connecting line plate conveying machine 1 is provided with a servo precise positioning mechanism 11, and the servo precise positioning mechanism 11 is used for precisely positioning the plate on the connecting line plate conveying machine 1 and precisely conveying the plate to the automatic plate conveying machine 2. The connecting plate feeding machine 1 has an automatic plate feeding function.

The automatic plate feeding machine 2 feeds the plate into the cutting and grinding main machine 3 by utilizing the push rod without contacting the plate by hands, so that the plate is better protected, and the plate feeding machine is more convenient, simpler and more flexible.

The cutting and grinding host 3 comprises a CCD image identification area 31, an automatic correction area 32 and a precise plate cutting area 33 which are right opposite to the automatic plate conveying machine 2, wherein the CCD image identification area 31 is used for identifying the plate images conveyed from the automatic plate conveying machine 2, the automatic correction area 32 is used for automatically correcting the positions of the plates, and the precise plate cutting area 33 is used for accurately cutting the plates. The number of the CCD image identification areas 31 is two, the two CCD image identification areas 31 are symmetrically distributed at the input end of the cutting and grinding host machine 3, the automatic correction area 32 is located in the middle area of the two CCD image identification areas 31, the precise plate cutting area 33 is distributed at the output end of the cutting and grinding host machine 3, and the automatic correction area 32 is located in the middle position of one end of the precise plate cutting area 33. The cutting and grinding host machine 3 has both a cutting function and an edge grinding function, in the cutting function, the plate is cut and cut without any mould and controlled by system software, and then the plate is directly cut, as long as corresponding parameters are set on the operation platform, a computer transmits corresponding instructions to the cutting and grinding host machine 3, the cutting and grinding host machine 3 performs quick cutting according to the received design draft, the automation program is high, and the operation is simple; in the edge grinding function, the cutting and grinding main machine 3 has the characteristics of finishing rough grinding, fine grinding and polishing at one time, is suitable for grinding the inclined surfaces and straight edges of plates with different sizes and thicknesses, is provided with a grinding wheel and a standby grinding wheel in a matched manner, and has the advantages of long service life, regular forming, high efficiency and the like.

The fillet machine 4 comprises a first conveying mechanism 41, a first servo conveying mechanism 42, a fillet mechanism group 43 and a second conveying mechanism group 44 which are right opposite to the cutting and grinding main machine 3, the first conveying mechanism 41 is located at the input end of the fillet machine 4, the second conveying mechanism group 44 is located at the output end of the fillet machine 4, the first servo conveying mechanism 42 and the fillet mechanism group 43 are located in the middle area of the fillet machine 4, the plate sequentially passes through the first conveying mechanism 41, the first servo conveying mechanism 42 and the second conveying mechanism group 44, and the fillet mechanism group 43 is used for chamfering the corner of the plate located at the first servo conveying mechanism 42. The number of the fillet mechanism groups 43 is two, the two fillet mechanism groups 43 are symmetrically distributed, and the first servo transmission mechanism 42 is positioned at the middle position of the two fillet mechanism groups 43. The cutter head of the fillet machine 4 is provided with a plurality of cutter types, the required cutter type can be replaced by rotating a certain angle, and the operation is simple, convenient, labor-saving and efficient.

The marking machine 5 comprises a front conveying mechanism 51, an automatic marking mechanism 52 and a second servo conveying mechanism 53 which are right opposite to the rounding machine 4, the front conveying mechanism 51 is located at the input end of the marking machine 5, the automatic marking mechanism 52 and the second servo conveying mechanism 53 are located at the output end of the marking machine 5, and the automatic marking mechanism 52 is used for marking the plate located on the second servo conveying mechanism 53. The number of the automatic marking mechanisms 52 is two, the two automatic marking mechanisms 52 are symmetrically distributed, and the second servo transmission mechanism 53 is positioned in the middle of the two automatic marking mechanisms 52. The marking machine 5 marks the plate and is convenient to identify.

The laser thickness measuring laser engraving machine 6 comprises an arraying mechanism group 61, a conveying mechanism group 62, a laser thickness measuring group 63 and a laser engraving group 64 which are right opposite to the marking machine 5, wherein the arraying mechanism group 61 and the conveying mechanism group 62 are positioned at the input end of the laser thickness measuring laser engraving machine 6, the laser thickness measuring group 63 and the laser engraving group 64 are positioned at the output end of the laser thickness measuring laser engraving machine 6, and the laser engraving group 64 is used for carrying out laser engraving processing on a plate subjected to laser thickness measuring by the laser thickness measuring group 63. The conveyor set 62 is transversely distributed and spans the alignment set 61, and the alignment set 61 and the conveyor set 62 are combined for conveying the plate material to the laser thickness measuring set 63 and the laser lettering set 64. The laser thickness measuring laser carving machine 6 is also called a semiconductor end face pumping laser marking machine, adopts an advanced fiber coupling semiconductor laser end face pumping technology, scans a vibrating mirror, has high scanning precision, high speed and stable performance, and meets the requirement of long-time continuous work.

The working process of the invention is as follows: firstly, a plate is automatically fed through a connecting line plate feeding machine 1, then the plate is input into an automatic plate feeding machine 2, then the plate is automatically fed into a cutting and grinding host machine 3 through the automatic plate feeding machine 2, then the plate is subjected to cutting and cutting through the cutting and grinding host machine 3, then the plate is subjected to edge grinding through the cutting and grinding host machine 3, then the plate which is subjected to cutting and edge grinding is fed into a fillet machine 4, then the fillet machine 4 performs fillet grinding on the fed plate, then the plate which is subjected to fillet grinding is fed into a marking machine 5, then the marking machine 5 performs marking on the fed plate, then the plate which is subjected to marking is fed into a laser thickness measuring laser engraving machine 6, and finally the laser thickness measuring laser engraving machine 6 performs laser engraving on the fed plate.

This automatic cut-out board edging line, rational in infrastructure will be connected the line and send trigger 1, automatic trigger 2, cut out mill host computer 3, fillet machine 4, marking machine 5 and radium-shine thickness measurement laser carving machine 6 high integrated together, cuts out mill, radius angle, makes a series of processes of marking and laser carving characters to panel in proper order, has work efficiency height, the high advantage of panel manufacturing accuracy.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (10)

1. The utility model provides an automatic cut out board edging line which characterized in that: the automatic plate cutting and grinding machine comprises a connecting line plate conveying machine (1), an automatic plate conveying machine (2), a cutting and grinding host machine (3), a fillet machine (4), a marking machine (5) and a laser thickness measuring laser carving machine (6), wherein plates sequentially pass through the connecting line plate conveying machine (1), the connecting line plate conveying machine (1) is used for automatically feeding materials, the input end of the automatic plate conveying machine (2) is connected with the output end of the connecting line plate conveying machine (1), the automatic plate conveying machine (2) is used for automatically conveying the plates to the cutting and grinding host machine (3), the input end of the cutting and grinding host machine (3) is connected with the output end of the cutting and grinding host machine (2), the cutting and grinding host machine (3) is used for cutting and edging the plates, the input end of the fillet machine (4) is connected with the output end of the cutting and grinding host machine (3), the fillet machine (4) is used for chamfering the plates, and the input end of the marking machine (5) is connected with the output end of the fillet machine (4), the marking machine (5) is used for marking the plate, the input end of the laser thickness measuring laser carving machine (6) is connected with the output end of the marking machine (5), and the laser thickness measuring laser carving machine (6) is used for carving characters on the plate.

2. The automatic blank-cutting edging line according to claim 1, characterized in that: the connecting line plate conveying machine (1) is provided with a servo precision positioning mechanism (11), and the servo precision positioning mechanism (11) is used for accurately positioning a plate on the connecting line plate conveying machine (1) and accurately conveying the plate to the automatic plate conveying machine (2).

3. The automatic blank-cutting edging line according to claim 1, characterized in that: the cutting and grinding host (3) comprises a CCD image identification area (31) which is aligned to the automatic plate conveying machine (2), an automatic correction area (32) and a precise plate cutting area (33), wherein the CCD image identification area (31) is used for identifying the plate image conveyed from the automatic plate conveying machine (2), the automatic correction area (32) is used for automatically correcting the position of the plate, and the precise plate cutting area (33) is used for accurately cutting the plate.

4. The automatic blank-cutting edging line according to claim 3, wherein: the quantity of CCD image identification district (31) is two, and these two CCD image identification district (31) symmetric distribution are at the input of cutting out mill host computer (3), automatic correction district (32) are located the middle zone of two CCD image identification district (31), precision cutting board district (33) distribute in the output of cutting out mill host computer (3), just automatic correction district (32) are located the intermediate position of precision cutting board district (33) one end.

5. The automatic blank-cutting edging line according to claim 1, characterized in that: the fillet machine (4) is including just being to the conveying mechanism (41), servo transport mechanism (42), fillet mechanism group (43) and the conveying mechanism of cutting and grinding host computer (3) two (44), conveying mechanism (41) is located the input of fillet machine (4), conveying mechanism group two (44) are located the output of fillet machine (4), servo transport mechanism (42) and fillet mechanism group (43) are located the middle zone of fillet machine (4), panel is in proper order through conveying mechanism (41), servo transport mechanism (42) and conveying mechanism group two (44), fillet mechanism group (43) are used for carrying out the radius angle to the panel corner that is located servo transport mechanism (42).

6. The automatic blank-cutting edging line according to claim 5, wherein: the number of the fillet mechanism sets (43) is two, the two fillet mechanism sets (43) are symmetrically distributed, and the first servo transmission mechanism (42) is located in the middle of the two fillet mechanism sets (43).

7. The automatic blank-cutting edging line according to claim 1, characterized in that: the marking machine (5) comprises a front conveying mechanism (51), an automatic marking mechanism (52) and a second servo conveying mechanism (53) which are right opposite to the rounding machine (4), the front conveying mechanism (51) is located at the input end of the marking machine (5), the automatic marking mechanism (52) and the second servo conveying mechanism (53) are located at the output end of the marking machine (5), and the automatic marking mechanism (52) is used for marking the plate located on the second servo conveying mechanism (53).

8. The automatic blank-cutting edging line according to claim 7, wherein: the number of the automatic marking mechanisms (52) is two, the two automatic marking mechanisms (52) are symmetrically distributed, and the second servo transmission mechanism (53) is positioned in the middle of the two automatic marking mechanisms (52).

9. The automatic blank-cutting edging line according to claim 1, characterized in that: laser thickness measurement laser carving machine (6) are including just being to permutation mechanism group (61), conveyor mechanism group (62), laser thickness measurement group (63) and laser group of carving characters (64) of marker (5), permutation mechanism group (61) and conveyor mechanism group (62) are located the input of laser thickness measurement laser carving machine (6), laser thickness measurement group (63) and laser group of carving characters (64) are located the output of laser thickness measurement laser carving machine (6), laser group of carving characters (64) are used for carrying out the laser processing of carving characters to the panel after laser thickness measurement of laser thickness measurement group (63).

10. The automatic blank-cutting edging line according to claim 9, wherein: the conveyor mechanism group (62) is transversely distributed and spans the alignment mechanism group (61), and the alignment mechanism group (61) and the conveyor mechanism group (62) are combined to convey the plate material to the laser thickness measuring group (63) and the laser printing character group (64).

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