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工程设计学报
工程设计学报  2019, Vol. 26 Issue (3): 364-370    DOI: 10.3785/j.issn.1006-754X.2019.03.016
整机和系统设计     
锯材指接自动涂胶设备的研制与应用
杨增帅1, 陈东1, 吴雨生1, 张伟1,2
1.国家林业和草原局 北京林业机械研究所, 北京 100029
2.中国林业科学研究院 林业新技术研究所, 北京100091
Development and application of automatic gluing equipment for finger-joint lumber
YANG Zeng-shuai1, CHEN Dong1, WU Yu-sheng1, ZHANG Wei1,2
1.Beijing Forestry Machinery Research Institute, State Forestry and Grassland Administration, Beijing 100029, China
2.Forestry New Technology Research Institute, Chinese Academy of Forestry, Beijing 100091, China
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摘要:

针对锯材指接涂胶过程中存在的涂胶不均、效率低、涂胶辊易磨损等问题,提出一种锯材指接自动涂胶的方法。基于PLC(programmable logic controller,可编程逻辑控制器),采用自动化检测技术,经过模块化设计,设计了一种新型自动涂胶设备,并进行了锯材指接自动涂胶试验。工厂化试验结果表明:自动涂料设备以200根/30 min的速度工作时,自动1次循环涂胶的合格率可达到97%及以上,且随时间逐渐提高,整个过程中设备无故障;自动2次循环涂胶时,在60—90 min、90—120 min内设备各出现1次故障,合格率均达95%及以上,无故障工作时间内自动2次循环涂胶的合格率可达到98%及以上,而人工涂胶合格率在90%以下。试验表明该自动涂胶设备能够实现快速自动涂胶,保证锯材指接涂胶质量,提高锯材指接涂胶的自动化程度,适合应用于锯材指接的工业化生产。
关键词: 锯材指接自动涂胶设备设备研制效率    
Abstract:

There are many problems in traditional methods of finger-joint lumber gluing, such as uneven glue, inefficiency and the friction damage of glue roller. In order to solve the problem, an automatic gluing method was proposed. Based on PLC (programmable logic controller), adopting automatic detection technology and modular design, a new automatic gluing equipment for finger-joint lumber was developed. The automatic gluing test for finger-joint lumber was carried out, and the factory test results showed that the gluing qualified rate of the automatic one-cycle gluing with the speed of 200/30 min could reach over 97%, and increase gradually with time, and the equipment had no failure. When using automatic two- cycles gluing, the qualified rate could reach over 95%, and the equipment had one failure respectivly in 60-90 min and 90-120 min. The qualified rate during the trouble-free working time could reach over 98%, while the qualified rate of manual gluing was below 90%. The test shows that the equipment can realize quick automatic gluing, ensure the quality of finger-joint lumber gluing, improve the automation degree of finger-joint lumber gluing, which is suitable for industrial production of finger-joint lumber.
Key words: finger-joint lumber    automatic gluing equipment    development of equipment    efficiency
收稿日期: 2017-08-08 出版日期: 2019-06-28
CLC:  TS 64  
基金资助:

中央级公益性科研院所基本科研业务费专项资金重点资助项目(CAFYBB2018ZB011,CAFYBB2017ZX003-5);国家自然科学基金面上项目(31670721)
通讯作者: 张伟(1969—),男,山东费县人,研究员,博士生导师,博士,从事林业装备与信息化研究,E-mail:zwei611@hotmail.com,https://orcid.org/0000-0002-6535-3638     E-mail: zwei611@hotmail.com
作者简介: 杨增帅(1992—),男,河南周口人,硕士生,从事林业装备与信息化研究,E-mail:yangzengshuai66@163.com,https://orcid.org/0000-0001-6434-816X
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引用本文:

杨增帅, 陈东, 吴雨生, 张伟. 锯材指接自动涂胶设备的研制与应用[J]. 工程设计学报, 2019, 26(3): 364-370.

YANG Zeng-shuai, CHEN Dong, WU Yu-sheng, ZHANG Wei. Development and application of automatic gluing equipment for finger-joint lumber. Chinese Journal of Engineering Design, 2019, 26(3): 364-370.

链接本文:

https://www.zjujournals.com/gcsjxb/CN/10.3785/j.issn.1006-754X.2019.03.016        https://www.zjujournals.com/gcsjxb/CN/Y2019/V26/I3/364

1 DAIQian, HUJia-hang, JIXiao-di, et al. Environmental efficiency effect of building glulam manufacturing technology[J]. Journal of Forestry Engineering, 2018,3(4):46-50.
2 SUNYu-hui, JIANGZe-hui, LIUHuan-rong, et al. Finger-joint technique of bamboo oriented strand board [J]. Journal of Northwest Forestry University, 2018,33(5):219-224.
3 ZHOUHai-bin, LIUXiao-na, HANLiu-yang, et al. Influence of adhesives type and finger joint on properties of glulam [J]. Journal of Building Materials,2017,20(5):752-757.
4 LINLan-ying, FUFeng. Endpressure and fitness ratio for mini-finger jointing [J]. Journal of Beijing Forest University, 2008, 35(2): 138-142.
5 ANTONIO JOSEL B, ALMUDENAM M, JORGEC, et a1. Finger-jointed eucalyptus globulus with 1C-PUR adhesive for high performance engineered laminated products[J]. Construction and Building Materials,2017, 135: 529-537. doi: 10.1016/j.conbuildmat.2017.01.004
6 JIZhong-zhi, YanMA . Analysis of the comprehensive strength of the leading enterprises of the international woodworking machinery[J]. Wood Processing Machinery, 2013, 24(6): 51-54.
7 WUXu-fang, ZHAORui-jin. Wooden beams and walls-oriented infinitely long finger-joint CNC production line equipment [J]. Forestry Machinery & Woodworking Equipment, 2014, 42(7): 17-20.
8 HUZhong-kang, LIUYing, WANGJun-dong, et a1. Design of fully automatic intelligent finger jointing device for solid wood based on CAN bus [J]. Forestry Machinery and Woodworking Equipment,2018, 46 (11): 8-12.
9 LIUXing-yu, FUWan-si, ZHAOZhang-rong, et al. The current research status and development trend of finger-jointed technology in China [J]. Wood Processing Machinery, 2012, 23(5): 62-67.
10 YANGLiang-qing, ZHOUYa-fei, ZHANGQian, et al. Structure refers to material damage characteristic[J]. Forestry Science &Technology, 2015, 40(5): 45-47.
11 ZHOUZhi-fang, BIKe-xin, ZHANGXue-song, et al. Effects of cross section, loading mode and finger-joint type on the bending property of larch structural finger-jointed lumber in large dimension[J]. Scientia Silvae Sinicae, 2016, 52(3): 82-89.
12 WANGLei, LIMing, YANGCheng-gang, et al. Design, modeling and PLC control of industrial feeding mechanism[J]. Journal of Chongqing Institute of Technology, 2015, 29(7): 24-28.
13 ZHANGQian-wei, HEHai-long, ZHANGShu-qing, et al. Development of the automatic feeding equipment of the structural glulam felt-board[J]. China Forest Products Industry, 2016, 43(6): 46-49.
14 ZHENGTian-chi, GUOLin-na, SUNXiao-gang, et al. Design of automatic preloading machine and its control system for capacitor cover plate [J]. Chinese Journal of Engineering Design, 2017, 24(1): 108-114.
15 ZHAOYan, ZHOUXin-jian. Principle and application of programmable controller.[M]. Beijing: China Forestry Publishing House, 2006:15-21.
16 Ministry of Housing and Urban-rural Development of the People's Republic of China. Standard for test methods of timber structures: GB/T 50329—2012[S]. Beijing: China Architecture & Building Press, 201266-70.
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