CN203830908U - Laser processing device for non-metallic materials - Google Patents
Laser processing device for non-metallic materials Download PDFInfo
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- CN203830908U CN203830908U CN201420129526.5U CN201420129526U CN203830908U CN 203830908 U CN203830908 U CN 203830908U CN 201420129526 U CN201420129526 U CN 201420129526U CN 203830908 U CN203830908 U CN 203830908U
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- laser
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- processing device
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Abstract
A laser processing device for non-metallic materials comprises a processing body and a supporting transmission device, wherein an emptying machine and a material stacking machine are respectively arranged at the front end and the rear end of the processing body; a laser pipe area is arranged above the processing body, and comprises a plurality of groups of laser pipe groups; a plurality of vibrating mirror heads are arranged at the tail end of each laser pipe group; the supporting transmission device at least comprises a plurality of rollers and a supporting belt; the plurality of rollers comprise at least one driving roller and a plurality of guide rollers; the supporting belt winds the plurality of rollers to realize supporting processing in the middle part. According to the laser processing device, the laser processing can be applied to various textile materials, synthetic natural leather, fuel, pve, paper, rubber, resin, clothing, embroidered patch, precision trademark cutting, precision ornamental engraving, drilling, edge cutting, leather punching, lofting and rough shape cutting of garment accessories, and precision cutting of non-metallic materials such as organic glass and the like.
Description
Technical field
The utility model relates to the technical field of parquets processing, relates in particular to a kind of laser processing device of nonmetallic materials.
Background technology
Along with improving constantly of economic life, the application of laser in cutting processing is more and more, laser cutting is to utilize the laser beam flying of high power density to cross material surface, at the utmost point, in the short time, material is heated to several thousand to up to ten thousand degrees Celsius, make material fusing or gasification, with gases at high pressure, fusing or gasification substance are blown away from joint-cutting again, reach the object of cutting material.Because being has replaced traditional mechanical blades with sightless light beam, the mechanical part of laser probe is contactless with work, can not cause scuffing to working surface at work; Laser cutting speed is fast, and otch is smooth, generally without following process; Cutting heat affected area is little, joint-cutting narrow (0.1mm~0.3mm); Otch does not have mechanical stress, without shear burr; Machining accuracy is high, reproducible, does not damage material surface; Numerical control programming, can process plane arbitrarily, whole plate cutting that can be very large to breadth, and without mold, economy saves time.
Laser cutting is mainly CO2 laser cutting, CO2 laser cutting is with focus lamp, CO2 laser beam to be focused on to material surface to make material fusing, use the Compressed Gas coaxial with laser beam to blow away the material being melted simultaneously, and make laser beam and material do relative motion along certain track, thereby form the joint-cutting of definite shape.
And in the nonmetallic materials such as skin, leather, cloth are processed, because the method efficiency such as existing hot-working are not high, the rate of pass is also lower.
For this reason, designer of the present utility model, by concentrating on studies and designing, is comprehensively engaged in for a long time experience and the achievement of related industry for many years, and research and design goes out a kind of laser processing device of nonmetallic materials, to overcome above-mentioned defect.
Utility model content
The technical problems to be solved in the utility model is: and in the nonmetallic materials such as skin, leather, cloth are processed, because the method efficiency such as existing hot-working are not high, the rate of pass is also lower.
For addressing the above problem, the utility model discloses a kind of laser processing device of nonmetallic materials, comprise processing body, the front and back end of described processing body is respectively equipped with feeding machine and material stacking machine, it is characterized in that:
The top of described processing body is provided with laser area under control, is provided with many group laser tube groups in described laser area under control, and the end of described laser tube group comprises a plurality of galvanometer heads;
The front portion of described processing body is provided with a plurality ofly introduces the intrinsic front guide drum of processing by raw material from feeding machine, rear portion be provided with a plurality of by finished product from processing body lead to material stacking machine guide pulley;
Described processing body middle part is also provided with supporting transmission device, described supporting transmission device at least comprises a plurality of rollers and supporting strap, in described a plurality of roller, comprise at least one transmission roller and a plurality of guiding roller, described supporting strap is wound in described a plurality of roller to support processing at middle part;
Described supporting strap is network chain, and described network chain is provided with many muscle, and described in each, roller is provided with many caulking grooves corresponding with described muscle.
Wherein: in described supporting transmission device, be also provided with negative pressure adsorption equipment.
Wherein: the both sides of described supporting transmission device are also provided with extractor fan.
Wherein: described laser area under control is also provided with the blowning installation that is positioned at described galvanometer head top.
Wherein: described laser area under control is also provided with exhaust device.
Known by said structure, the laser processing device of nonmetallic materials of the present utility model has following technique effect:
1, can be by laser processing application in the precision cutting of the nonmetallic materials such as the high accuracy ornamental engraving of the accurate cutting of all kinds of textile materials, synthesis of natural class leather, fuel, pve class, stationery, rubber, resin, clothes, applique, trade mark, garment accessories, punching, trimming, leather punching, setting-out, sawing sheet, lucite;
2, automation is high, and processing rapidly, and can effectively prevent that by supporting transmission device machined material sideslip from causing the bad or product rejection of crudy;
3, be provided with perfect smoke evacuation system, in time by smog emptying, avoid smog by machined material sooting, avoid affecting laser tube efficiency;
4, environmental protection and energy saving, laser processing, without chemical attack and water, is only used up and is made manufacturing process.
Detailed content of the present utility model can obtain by explanation described later and institute's accompanying drawing.
Accompanying drawing explanation
Fig. 1 has shown the structural representation of the laser processing device of the utility model nonmetallic materials.
Fig. 2 has shown the front view of the laser processing device of the utility model nonmetallic materials.
Fig. 3 has shown the side view of the laser processing device of the utility model nonmetallic materials.
Fig. 4 has shown the schematic diagram of the utility model network chain.
Fig. 5 has shown the part schematic diagram of the utility model network chain.
Fig. 6 has shown the schematic diagram of the utility model roller.
Reference numeral:
101: processing body; 102: feeding machine; 103: material stacking machine; 104: laser area under control; 105: laser tube group; 106: galvanometer head; 107: front guide drum; 108: rear guide pulley; 109: supporting transmission device; 110: draw-gear; 111: supporting strap; 112: negative pressure adsorption equipment; 113: extractor fan; 114: blowning installation; 115: operation cabinet; 116: Laser Power Devices cabinet; 117: exhaust device; 124: network chain; 1241: muscle; 125: roller; 1251: caulking groove.
The specific embodiment
Referring to Fig. 1-3, shown the laser processing device of nonmetallic materials of the present utility model.
The laser processing device of described nonmetallic materials comprises processing body 101, the front and back end of described processing body 101 can be respectively equipped with feeding machine 102 and material stacking machine 103, this feeding machine 102 can be used for depositing raw material T1, as the leather of rolling, cloth etc., this material stacking machine 103 can be used for the finished product T2 after processing, this feeding machine 102 and material stacking machine 103 are existing matured product in this area, and its structure is not tired out and stated at this.
The top of described processing body 101 is provided with laser area under control 104, in described laser area under control 104, be provided with many group laser tube groups 105, the end of described laser tube group 105 comprises a plurality of galvanometer heads 106 and forms processing head with the middle part in laser area under control 104, the polariscope that has the angle adjustable of two servomotors controls in each galvanometer head 106, accurately to be controlled by control system.
The front portion of described processing body 101 is provided with a plurality of front guide drums 107, rear portion is provided with a plurality of rear guide pulleys 108, described front guide drum 107 is introduced raw material T1 in processing body 101 from feeding machine 102, and described rear guide pulley 108 leads to material stacking machine 103 by finished product T2 from processing body 101.
Processing body 101 middle parts are also provided with supporting transmission device 109, rear portion also can be provided with draw-gear 110, described supporting transmission device 109 at least comprises a plurality of rollers and supporting strap 111, in described a plurality of roller, comprise at least one transmission roller and a plurality of guiding roller, described supporting strap 111 is wound in described a plurality of roller to support processing at middle part.
Wherein, in described supporting transmission device 109, also can be provided with negative pressure adsorption equipment 112, with by workpiece smooth, firm be adsorbed in supporting strap 111.
Wherein, the both sides of described supporting transmission device 109 also can be provided with extractor fan 113, to discharge in time after adding the fume extraction producing man-hour.
Wherein, described laser area under control 104 is also provided with the blowning installation 114 that is positioned at described galvanometer head top, avoids the smog that adds man-hour to produce galvanometer head.
Wherein, described laser area under control 104 is also provided with exhaust device 117.
Wherein, the both sides of described processing body 101 also can be provided with operation cabinet 115 and Laser Power Devices cabinet 116.
As can be seen here, processing body of the present invention, by many groups laser tube group, the raw material being attached on supporting strap is carried out to Laser Processing, and adsorbent equipment make raw material smooth from galvanometer head by processing, a plurality of air exhausting devices have been guaranteed to add can not affected by smog man-hour, has guaranteed the acceptance rate of product.
Wherein, the crudy causing in order to prevent raw material sideslip is bad, described supporting strap 111 also can be the network chain 124 in Fig. 4-5, and described network chain 124 is provided with many muscle 1241, and correspondence is with it, referring to Fig. 6, described roller 125 is provided with many caulking grooves 1251 corresponding with described muscle 1241, and thus, supporting strap 111 can be chimeric by the mutual correspondence of muscle 1241 and caulking groove 1251, when transmission supporting raw material, avoid the skew of supporting strap, guarantee that raw material carries out transmission according to predetermined route.
Preferably, described laser area under control 104 also can be provided with infrared sensor, with the raw material in processing, detects.
Known by said structure, the laser processing device tool of nonmetallic materials of the present utility model has the following advantages:
1, can be by laser processing application in the precision cutting of the nonmetallic materials such as the high accuracy ornamental engraving of the accurate cutting of all kinds of textile materials, synthesis of natural class leather, fuel, pve class, stationery, rubber, resin, clothes, applique, trade mark, garment accessories, punching, trimming, leather punching, setting-out, sawing sheet, lucite;
2, automation is high, and processing rapidly, and can effectively prevent that by supporting transmission device machined material sideslip from causing the bad or product rejection of crudy;
3, be provided with perfect smoke evacuation system, in time by smog emptying, avoid smog by machined material sooting, avoid affecting laser tube efficiency;
4, environmental protection and energy saving, laser processing, without chemical attack and water, is only used up and is made manufacturing process.
It is evident that above description and to record be only for example rather than in order to limit disclosure of the present utility model, application or use.Although described in an embodiment and be described in the drawings embodiment, but the optimal mode that the utility model does not limit by accompanying drawing example and the conduct of describing is in an embodiment thought to be at present to implement the specific examples of instruction of the present utility model, scope of the present utility model will comprise any embodiment of the description that falls into above and appended claim.
Claims (5)
1. a laser processing device for nonmetallic materials, comprises processing body, and the front and back end of described processing body is respectively equipped with feeding machine and material stacking machine, it is characterized in that:
The top of described processing body is provided with laser area under control, is provided with many group laser tube groups in described laser area under control, and the end of described laser tube group comprises a plurality of galvanometer heads;
The front portion of described processing body is provided with a plurality ofly introduces the intrinsic front guide drum of processing by raw material from feeding machine, rear portion be provided with a plurality of by finished product from processing body lead to material stacking machine guide pulley;
Described processing body middle part is also provided with supporting transmission device, described supporting transmission device at least comprises a plurality of rollers and supporting strap, in described a plurality of roller, comprise at least one transmission roller and a plurality of guiding roller, described supporting strap is wound in described a plurality of roller to support processing at middle part;
Described supporting strap is network chain, and described network chain is provided with many muscle, and described in each, roller is provided with many caulking grooves corresponding with described muscle.
2. laser processing device as claimed in claim 1, is characterized in that: in described supporting transmission device, be also provided with negative pressure adsorption equipment.
3. laser processing device as claimed in claim 1, is characterized in that: the both sides of described supporting transmission device are also provided with extractor fan.
4. laser processing device as claimed in claim 1, is characterized in that: described laser area under control is also provided with the blowning installation that is positioned at described galvanometer head top.
5. laser processing device as claimed in claim 1, is characterized in that: described laser area under control is also provided with exhaust device.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420129526.5U CN203830908U (en) | 2014-03-21 | 2014-03-21 | Laser processing device for non-metallic materials |
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CN201420129526.5U CN203830908U (en) | 2014-03-21 | 2014-03-21 | Laser processing device for non-metallic materials |
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CN203830908U true CN203830908U (en) | 2014-09-17 |
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CN201420129526.5U Expired - Fee Related CN203830908U (en) | 2014-03-21 | 2014-03-21 | Laser processing device for non-metallic materials |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108555461A (en) * | 2018-04-04 | 2018-09-21 | 深圳华大基因股份有限公司 | Full-automatic non-contact laser puncher |
-
2014
- 2014-03-21 CN CN201420129526.5U patent/CN203830908U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108555461A (en) * | 2018-04-04 | 2018-09-21 | 深圳华大基因股份有限公司 | Full-automatic non-contact laser puncher |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140917 Termination date: 20180321 |