M434668 五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種拼接裝置,特別是一種可穩固進 料之中板拼板機。 【先前技術】 參閱圖1 ’習知拼板機1包含有一機台11,一設於該 機台11上且依序輸送一板材(如原木切削後之木片)之輪 送模組12,一將輸入後之板材加以裁切之裁切模組13, 以及一將該等裁切後之板材予以黏合之拼接裝置14;其 中’該輸送模組12具有一設於機台11上之驅動單元121, 一受該驅動單元121連動之輸送平台122,以及複數間隔 設置於該機台11上且呈相互連動之第一夾送組丨23;配合 參閱圖2,使用時,依序將一板材依序放置於該輸送平台 122上’傳輸至該第一夾送組123後,經由該第一夾送組 123將該板材2壓摯輸送至該裁切模組13進行裁切整平, 而後再輸送至該拼接裝置14上,以便將任二板材2之邊 緣相互膠結而緊密黏成一完整之板材2,並且再依後續不 同使用目的,將該板材2進行後續加工。 然,實際使用上具有下列缺失產生’茲條列如下: 1.當該板材2由該輸送平台122輸送至該等第一夾送組 123時,谷易因為該板材2材料翹起,而造成該板材2 無法順利的進人該等第—夾送組123,使得該板材2往 該等第一夹送組123上方送料(如圖2),造成卡料,當 卡料發生時就必須停機進行排除,除造成操作者相當的 3 M434668 不便外’同時也會造成生產時間的延誤。 2. 當該板材2放置於該輸送平台122上時,若產生歪斜 時,即該板材2之一邊無法對齊該輸送平台122之一側 (即稱之為歪料),而無法自動導正,實有待改進。 3. 另外,當該板材2置入該等第一夾送組123後,由於該 等第一夾送組123輸送行程與夾送面積有限,容易使得 該板材2於該等第一夾送組123輸送過程中,造成位移 而歪料,使得原本可以拼接之板材2,因無法導正,致 使形成歪料狀態而被裁切之缺失,造成板材2材料的浪 費’大大降低該板材2之利用率,實有待改善。 4. 再者,拼接過程板材2產生歪斜時,雖可經由裁切裝置 13將該板材2之邊緣予以裁切整平,,不過,極易造成 裁切後之該等板材2的木纖維紋路呈現不同方向之情事 發生,一旦該等板材2進行拼接後,雖可達成該等板材 2之拼接,不過確因該等板材2之木纖維排列無法同一 方向,導致該等板材2拼接後之接合強度明顯降低,大 大影響拼接品質,實有待改善。 【新型内容】 因此,本新型之目的,是在提供一種可穩固進料之中 板拼板機,其可有效減少板材於送料過程中產生位移、π 斜’確保該板材得到最大利用率,降低浪費,有效提升拼 接品質。 於是,本新型一種可穩固進料之十板拼板機,其包含 有一機台,一設於該機台上且依序將板材予以送料之輪送 4 M434668 圖5疋本創作第二較佳實施例之立體圖; 圖6 7是本創作第二較佳實施例之動作示意圖;及 圖8疋本創作第二較佳實施例之另-動作示意圖。 【主要元件符號說明】M434668 V. New description: [New technical field] The present invention relates to a splicing device, in particular to a plate splicing machine which can be stably fed. [Prior Art] Referring to Fig. 1 'The conventional jigsaw machine 1 includes a machine table 11, a wheeling module 12 disposed on the machine table 11 and sequentially conveying a plate (such as a wood chip after cutting a log). a cutting module 13 for cutting the input sheet, and a splicing device 14 for bonding the cut sheets; wherein the conveying module 12 has a driving unit disposed on the machine table 11 121, a transport platform 122 coupled by the driving unit 121, and a plurality of first pinch groups 23 disposed on the machine 11 and interlocking with each other; referring to FIG. 2, in use, a plate is sequentially used After being sequentially placed on the transport platform 122 and transmitted to the first pinch group 123, the plate 2 is compressed and transported to the cutting module 13 through the first pinch group 123 for cutting and leveling, and then Then, it is conveyed to the splicing device 14 to bond the edges of any two sheets 2 to each other to be closely adhered to a complete sheet 2, and then the sheet 2 is subjected to subsequent processing for subsequent use purposes. However, the actual use has the following deletions. The following is listed as follows: 1. When the sheet 2 is transported by the transport platform 122 to the first pinch group 123, the valley is caused by the material of the sheet 2 being lifted. The sheet 2 cannot smoothly enter the first-pinch group 123, so that the sheet 2 is fed above the first pinch group 123 (as shown in Fig. 2), causing the jam, which must be stopped when the jam occurs. Exclusions, in addition to causing the operator's equivalent 3 M434668 inconvenience, will also cause delays in production time. 2. When the sheet 2 is placed on the conveying platform 122, if the skew is generated, one side of the sheet 2 cannot be aligned with one side of the conveying platform 122 (that is, it is called dip material), and cannot be automatically guided. There is room for improvement. 3. In addition, after the plate 2 is placed in the first pinch group 123, the plate 2 is easily placed in the first pinch group because the first pinch group 123 has a limited conveying stroke and pinch area. 123 During the conveying process, the displacement is caused by the material, so that the sheet 2 which can be spliced can be cut due to the unconformity, resulting in the loss of the material of the sheet 2, which greatly reduces the utilization of the sheet 2. The rate needs to be improved. 4. In addition, when the splicing process sheet 2 is skewed, the edge of the sheet material 2 can be cut and leveled by the cutting device 13, but the wood fiber texture of the sheet material 2 after cutting is easily caused. The occurrence of different directions occurs. Once the panels 2 are spliced, the splicing of the panels 2 can be achieved, but the splicing of the panels 2 is not possible because the wood fibers of the panels 2 cannot be aligned in the same direction. The strength is significantly reduced, which greatly affects the quality of the stitching, and needs to be improved. [New content] Therefore, the purpose of the present invention is to provide a plate-stacking machine capable of stable feeding, which can effectively reduce the displacement of the plate during the feeding process, and the π-slope ensures the maximum utilization of the plate and reduces Waste, effectively improve the quality of the stitching. Therefore, the present invention provides a ten-plate splicing machine capable of stably feeding, which comprises a machine table, a wheel set on the machine table and sequentially feeding the plates 4 M434668. FIG. 6 is a schematic view showing the operation of the second preferred embodiment of the present invention; and FIG. 8 is a schematic view showing another embodiment of the second preferred embodiment of the present invention. [Main component symbol description]
3 令板拼板機 31 機台 32 輸送模組 33 裁切裝置 34 拼接裝置 35 第一央送組 36 防翹裝置 37 導正裝置.. 321 驅動單元 322 輸送平台 323 第一失送組 351 上輸送器 352 下輸送器 3511 上軸桿 3512、 3522 連動輪 3513、 3523 連動鏈 3521 下軸桿 361 架體 362 頂壓輪 363 頂壓帶 364 彈性件 371 偏設輪 372 正設輪 93 plate splicing machine 31 machine 32 conveying module 33 cutting device 34 splicing device 35 first central feeding group 36 anti-warping device 37 guiding device: 321 driving unit 322 conveying platform 323 first lost group 351 Conveyor 352 Lower conveyor 3511 Upper shaft 3512, 3522 Link 3513, 3523 Link chain 3521 Lower shaft 361 Frame 362 Top pressure wheel 363 Top pressure belt 364 Elastic member 371 Bias wheel 372 Positive wheel 9