TWI595138B - Cloth positioner for continuous processing - Google Patents

Description

提供連續性加工使用的布料定位結構Cloth positioning structure for continuous processing

本發明涉及一種加工用固持模具，特別涉及一種提供布料可連續性加工用的定位結構。The present invention relates to a holding mold for processing, and more particularly to a positioning structure for providing continuous processing of cloth.

所述布料，在此是指可以將其製成服飾或鞋面半成品的料件；所述連續性加工，在此則是指至少包括：整燙、熱壓、印染與切割的加工程序；現有技術中，在進行前述任一項加工程序前，該布料通常皆需要再次置於不同的固持模具上重新定位(即：重新對一次版位)；然而，每當該布料重新對一次版位後，則會多產生一次偏移的誤差值；也就是說，由於該布料在不同的部位原本就存在著不同的張力，所以當該布料在經過前一次的加工程序(如：整燙或熱壓)之後，該布料即會形成不規的外輪廓形狀，因此當該布料又要重新置於不同的固持模具上進行下一加工程序(如：印染或切割)時，則必須要再次重新對一次版位，如此便將造成更大偏移的誤差值；由前述可知，如何提供該布料可以在不同的加工程序中連續使用同一固持模具，其為提昇加工精確度與提高生產效率的要件，亦為達成全面自動化加工的首要改進任務。The cloth, as used herein, refers to a material that can be made into a garment or a semi-finished upper; the continuous processing refers to at least a processing procedure of ironing, hot pressing, printing and cutting; In the technique, the fabric usually needs to be repositioned on different holding molds (ie, re-aligning one position) before performing any of the foregoing processing procedures; however, whenever the cloth is re-aligned once, , the error value of the offset will be generated more; that is, since the cloth has different tensions in different parts, when the cloth is subjected to the previous processing procedure (such as ironing or hot pressing) After that, the fabric will form a random outer contour shape, so when the fabric is to be repositioned on a different holding mold for the next processing procedure (such as printing or cutting), it must be re-paired again. The position of the plate, which will result in a larger offset error value; as can be seen from the foregoing, how to provide the cloth can continuously use the same holding mold in different machining programs, which improves the machining accuracy and improves Production efficiency requirements, also to achieve a comprehensive automated processing of the primary task of improvement.

本發明之主要目的在於解決上述現有技術的缺陷；也就是說，本發明主要目的在於提供一種在不同的加工程序中可連續使用相同的布料定位結構，以大幅提昇加工精確度，並有效地提高產品良率，實質克服了全面自動化加工的障礙；本發明另一目的在於提供一種可被重複使用的布料定位結構，有效地降低夾具成本，而減少資源的浪費，並增進產業競爭力。The main object of the present invention is to solve the above-mentioned drawbacks of the prior art; that is, the main object of the present invention is to provide a continuous use of the same cloth positioning structure in different processing procedures, so as to greatly improve the processing accuracy and effectively improve Product yield substantially overcomes the obstacles of comprehensive automated processing; another object of the present invention is to provide a fabric positioning structure that can be reused, effectively reducing the cost of the fixture, reducing waste of resources, and enhancing industrial competitiveness.

根據上述目的，本發明提出一種提供連續性加工使用的布料定位結構，其中該布料定位結構包括一加工基座、一設於該加工基座上的對位板與至少一花位對接銷片；該加工基座具有複數的穿孔，而該對位板具有至少一與該花位對接銷片匹配的銷片槽、複數的負壓氣孔與至少一雷射切割線槽；藉由該花位對接銷片固定於一布料後匹配置入該銷片槽，而達成將該布料定位於該布料定位結構上以提供連續性加工。According to the above objective, the present invention provides a fabric positioning structure for providing continuous processing, wherein the fabric positioning structure includes a processing base, a matching plate disposed on the processing base, and at least one flower-position docking pin; The processing base has a plurality of perforations, and the alignment plate has at least one pin slot matched with the flower position abutting pin, a plurality of negative pressure air holes and at least one laser cutting wire slot; The pin is fixed to a fabric and then mated into the pin slot to achieve positioning of the fabric on the fabric positioning structure to provide continuous processing.

更進一步地，所述提供連續性加工使用的布料定位結構，其中該花位對接銷片包括有一用以匹配置入該銷片槽的本體與一固接於該本體上並用以固定該布料的定著件。Further, the fabric positioning structure for continuous processing is provided, wherein the flower position butt pin comprises a body for matching the groove of the pin and a body fixed to the body for fixing the cloth. Set the pieces.

更進一步地，所述提供連續性加工使用的布料定位結構，其中該定著件為一工業用且耐高溫的魔鬼氈或一金屬釘。Further, the fabric positioning structure for continuous processing is used, wherein the fixing member is an industrial and high temperature resistant devil felt or a metal nail.

更進一步地，所述提供連續性加工使用的布料定位結構，其中該本體為一耐高溫的木質片或塑膠片。Further, the fabric positioning structure for continuous processing is provided, wherein the body is a high temperature resistant wood or plastic sheet.

更進一步地，所述提供連續性加工使用的布料定位結構，其中該本體與該定著件之間的固接手段是選自車縫、膠合、鉚合、螺鎖的其中之一或其組合。Further, the fabric positioning structure for providing continuous processing, wherein the fixing means between the body and the fixing member is one selected from the group consisting of sewing, gluing, riveting, screw locking or a combination thereof .

更進一步地，所述提供連續性加工使用的布料定位結構，其中該加工基座周邊設有一邊框。Further, the fabric positioning structure for continuous processing is provided, wherein a periphery of the processing base is provided with a frame.

通過上述技術方案可知，本發明相較於現有技術實質所達成的有益效果在於：一、由於本發明所述布料定位結構可在不同的加工程序中連續使用相同的布料定位結構，因此在不同的加工程序中不會產生偏移的誤差值，故可大幅提昇加工精確度，並可有效地提高產品良率，實質克服了全面自動化加工的障礙；二、由於本發明所述布料定位結構可在不同的加工程序中連續使用相同的布料定位結構，因此在不同的加工程序中不需浪費重新定位的時間，故可有效提高產品生產數量；三、由於本發明所述布料定位結構是一種可被重複使用的布料定位結構，因此可有效地降低該布料定位結構的成本，以減少資源的浪費，進而可增加產業競爭力。According to the above technical solution, the beneficial effects achieved by the present invention over the prior art are as follows: 1. Since the cloth positioning structure of the present invention can continuously use the same cloth positioning structure in different processing programs, it is different in The error value of the offset is not generated in the processing program, so the processing accuracy can be greatly improved, and the product yield can be effectively improved, thereby substantially obscuring the obstacle of the overall automatic processing; 2. The fabric positioning structure according to the present invention can be The same fabric positioning structure is continuously used in different processing programs, so that no re-positioning time is wasted in different processing programs, so that the number of products can be effectively increased. 3. Because the cloth positioning structure of the present invention is a kind of The reusable fabric positioning structure can effectively reduce the cost of the fabric positioning structure, thereby reducing waste of resources and thereby increasing industrial competitiveness.

有關本發明一種提供連續性加工使用的布料定位結構，其較佳實施例及詳細技術內容，茲配合圖式說明如後。首先，請同時參閱「圖1」~「圖3」，以及「圖7」與「圖8」所示，為本發明第一較佳實施例分解、組立及第一較佳實施例花位對接銷片與布料進行對位固定的等角外觀示意圖，以及第二較佳實施例分解與組立的等角外觀示意圖；如各圖所示可清楚看出，本發明提出一種提供連續性加工使用的布料定位結構，其中該布料定位結構10包括一加工基座20、一設於該加工基座20上的對位板30與至少一花位對接銷片40；該加工基座20具有複數的穿孔21，而該對位板30具有至少一與該花位對接銷片40匹配的銷片槽31、複數的負壓氣孔32與至少一雷射切割線槽33，該雷射切割線槽33主要是為了避免雷射切割所產生的高溫對於該對位板30所被對應的切割位置產生破壞，再則可用以提供一雷射切割機(為現有技術的機器，故圖中未示出)在下方吸收廢氣用的對流通道，如此即可降低雷射切割所產生的氣體對該布料50所造成的污染問題；藉由該花位對接銷片40固定於一布料50後匹配置入該銷片槽31，而達成將該布料50定位於該布料定位結構10上以提供連續性加工。其中，該對位板30為耐高溫材質所製成，而該花位對接銷片40的外圍形狀可以是如「圖1」~「圖3」所示的不規則形狀，亦或是如「圖7」與「圖8」所示的幾何形狀；然而，該花位對接銷片40與該銷片槽31所設置的位置分佈，主要是在該雷射切割線槽33所成形狀的向內範圍上分佈設置，當然亦可同時在該雷射切割線槽33所成形狀的向外範圍上分佈設置。值得注意的是，該花位對接銷片40還包括有一用以匹配置入該銷片槽31的本體41與一固接於該本體41上並用以固定該布料50的定著件42；其中該定著件42可為一工業用且耐高溫的魔鬼氈(如「圖1」~「圖3」所示 )或一金屬釘(如「圖7」與「圖8」所示 )，本發明所使用的該金屬釘其直徑以較小者為佳，以利於穿過該布料50的編織結構而將該布料50固定，再者亦可令該布料50在經連續加工後而自該金屬釘取下時，該布料50的編織結構可更快的回復而不會留下孔洞，該金屬釘較佳的直徑尺寸大約為1.5mm；而該本體41可為一耐高溫的木質片或塑膠片；另外，該本體41與該定著件42之間的固接手段可以是選自車縫、膠合、鉚合、螺鎖的其中之一或其組合。再則，值得一提的是，該加工基座20主要是提供該對位板30的定位與支撐，而該加工基座20具有複數穿孔21的結構，該穿孔21則主要為一耐雷射切割的蜂窩芯板(5mm厚的SUS304不銹鋼板)，由於雷射切割該布料50時，該布料50會因受熱燒灼而產生氣體，所以該穿孔21具有透氣的效果，以降低氣體對該布料50的污染；另外，該加工基座20周邊還可設置一邊框22，該邊框22提供了該對位板30置放於該加工基座20上時可快速定位的功能，以及防止該對位板30在定位於該加工基座20的加工過程中發生相對的偏移現象；由於，該對位板30常態性是固定於該加工基座20上，所以當該對位板30固定於該加工基座20上之後，該邊框22僅是用以提供該對位板30可更穩定的效果，也就是說，是為了防止該對位板30與該加工基座20發生相對的偏移現象；然而，該對位板30固定於該加工基座20上的方式，是可以利用一耐高溫的捆綁元件或銅釘穿過該對位板30的負壓氣孔32與該加工基座20的穿孔21來將該對位板30綁緊或鎖緊固定在該加工基座20上的。A preferred embodiment and detailed technical content of a fabric positioning structure for providing continuous processing according to the present invention will be described later in conjunction with the drawings. First, please refer to FIG. 1 to FIG. 3, and FIG. 7 and FIG. 8 are the first preferred embodiment of the present invention. A schematic view of the equiangular appearance of the pin and the cloth in alignment, and an isometric appearance of the second preferred embodiment exploded and assembled; as can be clearly seen from the figures, the present invention provides a method for providing continuous processing. a fabric positioning structure, wherein the fabric positioning structure 10 includes a processing base 20, a alignment plate 30 disposed on the processing base 20, and at least one flower matching pin 40; the processing base 20 has a plurality of perforations 21, and the alignment plate 30 has at least one pin slot 31 matching the position matching pin 40, a plurality of negative pressure air holes 32 and at least one laser cutting slot 33, the laser cutting trunk 33 is mainly In order to avoid the high temperature generated by the laser cutting, the corresponding cutting position of the alignment plate 30 is damaged, and then it can be used to provide a laser cutting machine (which is not shown in the prior art). The convection channel for absorbing exhaust gas below, so that it can be lowered The problem of the contamination caused by the gas generated by the laser cutting on the cloth 50; the flower-pitching pin 40 is fixed to a cloth 50 and then matched into the pin groove 31, thereby achieving positioning of the cloth 50 The cloth is positioned on the structure 10 to provide continuous processing. The alignment plate 30 is made of a high temperature resistant material, and the peripheral shape of the flower position butt pin 40 may be an irregular shape as shown in FIG. 1 to FIG. 3 or as The geometry shown in Fig. 7" and "Fig. 8"; however, the positional distribution of the flower bit butt pin 40 and the pin groove 31 is mainly the shape of the shape of the laser cutting groove 33. The distribution in the inner range can of course also be distributed over the outer extent of the shape of the laser cutting groove 33. It should be noted that the flower position butt pin 40 further includes a body 41 for matching the pin slot 31 and a fixing member 42 fixed to the body 41 for fixing the cloth 50; The fixing member 42 can be an industrial and high temperature resistant devil felt (as shown in "Fig. 1" to "Fig. 3") or a metal nail (as shown in "Fig. 7" and "Fig. 8"). The metal nail used in the invention preferably has a smaller diameter to facilitate the fixing of the cloth 50 through the woven structure of the cloth 50, and the cloth 50 may be made from the metal after continuous processing. When the nail is removed, the woven structure of the cloth 50 can recover faster without leaving a hole. The metal nail preferably has a diameter of about 1.5 mm; and the body 41 can be a high temperature resistant wood sheet or plastic. In addition, the fixing means between the body 41 and the fixing member 42 may be one selected from the group consisting of sewing, gluing, riveting, screw locking or a combination thereof. Furthermore, it is worth mentioning that the processing base 20 mainly provides positioning and support of the alignment plate 30, and the processing base 20 has a structure of a plurality of perforations 21, which is mainly a laser-resistant cutting. The honeycomb core plate (5mm thick SUS304 stainless steel plate), when the cloth 50 is cut by the laser, the cloth 50 generates gas due to heat burning, so the perforation 21 has a gas permeable effect to reduce the gas to the cloth 50. In addition, a bezel 22 can be disposed around the processing base 20, and the bezel 22 provides a function of quickly positioning the alignment plate 30 when placed on the processing base 20, and prevents the alignment plate 30 from being removed. A relative offset phenomenon occurs during the process of positioning the processing base 20; since the normality of the alignment plate 30 is fixed to the processing base 20, when the alignment plate 30 is fixed to the processing base After the seat 20, the frame 22 is only used to provide a more stable effect of the alignment plate 30, that is, to prevent the alignment plate 30 from being relatively offset from the processing base 20; The alignment plate 30 is fixed on the processing base 20 For example, a high temperature resistant binding member or a copper nail can be passed through the negative pressure air hole 32 of the alignment plate 30 and the through hole 21 of the processing base 20 to fasten or lock the alignment plate 30 thereto. Processing on the base 20.

再請同時參閱「圖3」~「圖5」所示，為本發明第一較佳實施例中花位對接銷片與布料進行對位固定的等角外觀示意圖、花位對接銷片置入銷片槽後相對於布料位置的俯視平面示意圖，以及雷射切割線槽所形成切除區域與切割線的俯視平面示意圖；首先，如「圖3」所示可清楚看出第一較佳實施例中的布料50是以加工製造出一鞋面半成品為例，故該布料50為一鞋版型的料件，於圖中亦可看出，該布料50已被預先規劃設計並編織出一布花51，而花位對接銷片40與銷片槽31的外圍形狀，實與該花位對接銷片40固定於該布花51的位置以及該布花51的外觀形狀息息相關；也就是說，該花位對接銷片40是被設置固定在可以避開該布花51的區域，且當該花位對接銷片40置入該銷片槽31後是不會去阻斷雷射切割線槽33的位置上才可行；因此，該花位對接銷片40與該銷片槽31即可因該布花51的外觀與該雷射切割線槽33的位置而形成如「圖3」所示的不規則形狀；當該花位對接銷片40固定於該布料50下方，且當該花位對接銷片40置入該銷片槽31後，該布料50相對於布料定位結構10的位置如「圖4」所示，由該「圖4」可看出該布料50的該布花51範圍有部份是覆蓋住該雷射切割線槽33的，因此該布料50在該雷射切割線槽33相對位置的對照之下形成出一提供雷射切割機(為現有技術的機器，故圖中未示出)可以切割出如「圖5」所示的切割線53，以及該布料50自該切割線53向外所形成如「圖5」所示的一切除區域52；所以，當該布料50固定於該布料定位結構10上並接受連續性加工(整燙、熱壓、印染、切割)後，最終該布料50外圍的該切除區域52被雷射切割機依該切割線53切割成如「圖6」所示的鞋面半成品。值得一提的是，其中所述的連續性加工，至少包括：一、整燙：是以一蒸氣將一布料50進行鬆弛後再以一熨斗將該布料50壓燙平整；此外，亦可於該布料50的特定位置上穿設一銅釘來整燙，待去除該銅釘後即可形成一圓孔；二、熱壓：是以一(金屬)模板高溫(120℃)加熱後將一膠膜/塑料加壓至該布料50上；三、印染：是以一顏料將該布料50噴印染色；四、切割：是以一雷射切割機將該布料50所需尺寸的最終外輪廓予以切割形成。此外，該布料定位結構10主要是提供一布料50在連續性加工之後，該布料定位結構10仍可被其他布料50重複使用；也就是說，該布料定位結構10是可以重複被使用的，該布料定位結構10重複被使用的方式與步驟如下：一、該對位板30已先於該加工基座20上對位並固定；二、將該布料50的特定區塊上固定上該花位對接銷片40；三、將該花位對接銷片40匹配置入於該對位板30上的銷片槽31內；四、將固定於該布料定位結構10上的該布料50進行整燙/熱壓/印染/切割的連續性加工程序；五、將該布料50連同該花位對接銷片40自該銷片槽31中取出；六、移除該布料50被切割後所形成的切除區域52，並將該花位對接銷片40取下而取得預定外圍形狀的該布料50半成品；七、將該花位對接銷片40再次固定於另一布料50的特定區塊上；八、重複前述三至七的方式與步驟；如是，即可令該布料定位結構10達成被重複使用的目的。Please also refer to FIG. 3 to FIG. 5, which are schematic diagrams showing the equiangular appearance of the flower position butt joint pin and the cloth in the first preferred embodiment of the present invention, and the flower position butt pin insertion. A schematic plan view of the plane after the pin slot relative to the cloth position, and a plan view of the cut-out area and the cutting line formed by the laser cutting groove; first, as shown in FIG. 3, the first preferred embodiment can be clearly seen. The fabric 50 in the middle is an example of processing a semi-finished upper, so the fabric 50 is a shoe-type material. It can also be seen in the figure that the fabric 50 has been pre-planned and woven. The flower 51, and the peripheral shape of the flower-point butt pin 40 and the pin groove 31 are closely related to the position at which the flower-point butt pin 40 is fixed to the cloth 51 and the appearance shape of the cloth 51; that is, The flower position butt pin 40 is fixed to an area where the cloth 51 can be avoided, and when the flower position butt pin 40 is placed in the pin groove 31, the laser cutting slot is not blocked. The position of 33 is only feasible; therefore, the flower position butt pin 40 and the pin slot 31 can be The appearance of the cloth 51 and the position of the laser cutting line groove 33 form an irregular shape as shown in FIG. 3; when the flower position butt pin 40 is fixed under the cloth 50, and when the flower position After the butt pin 40 is placed in the pin slot 31, the position of the cloth 50 relative to the cloth positioning structure 10 is as shown in FIG. 4, and the cloth 51 range of the cloth 50 can be seen from FIG. In part, the laser cutting slot 33 is covered, so that the cloth 50 forms a laser cutting machine under the control of the relative position of the laser cutting slot 33 (for prior art machines, The cutting line 53 as shown in FIG. 5 can be cut out, and the cloth 50 forms a cut-out area 52 as shown in FIG. 5 outward from the cutting line 53; therefore, when After the cloth 50 is fixed on the cloth positioning structure 10 and subjected to continuous processing (polishing, hot pressing, printing, cutting), the cutting area 52 at the periphery of the cloth 50 is finally cut by the laser cutting machine according to the cutting line 53. A semi-finished upper as shown in Figure 6. It is worth mentioning that the continuous processing described therein includes at least: 1. ironing: the fabric 50 is relaxed by a vapor, and then the fabric 50 is pressed and flattened by an iron; A specific position of the cloth 50 is placed with a copper nail to be ironed, and a round hole is formed after the copper nail is removed; 2. Hot pressing: a glue is heated after heating at a high temperature (120 ° C) The film/plastic is pressed onto the cloth 50; 3. Printing and dyeing: the cloth 50 is printed and dyed by a pigment; 4. Cutting: the final outer contour of the desired size of the cloth 50 is given by a laser cutting machine. Cutting is formed. In addition, the cloth positioning structure 10 mainly provides a cloth 50 after the continuous processing, the cloth positioning structure 10 can still be reused by other cloths 50; that is, the cloth positioning structure 10 can be repeatedly used, The manner and steps of repeatedly using the cloth positioning structure 10 are as follows: 1. The alignment plate 30 has been aligned and fixed on the processing base 20; 2. The specific block of the cloth 50 is fixed on the flower position. The mating piece 40 is disposed in the pin groove 31 of the alignment plate 30; and the cloth 50 fixed on the cloth positioning structure 10 is ironed. /Continuous processing program of hot pressing/printing/cutting; 5. The cloth 50 is taken out from the pin slot 31 together with the flower position butt pin 40; 6. Removal of the cut formed after the cloth 50 is cut a portion 52, and the flower position butt pin 40 is removed to obtain a semi-finished product of the cloth 50 having a predetermined peripheral shape; 7. the flower-point butt pin 40 is fixed to a specific block of the other cloth 50 again; Repeat the above three to seven ways and steps; if so, you can make Cloth positioning structure 10 achieve the object is reused.

另請同時參閱「圖9」與「圖10」所示；為本發明第二較佳實施例中花位對接銷片置入銷片槽後相對於布料位置的俯視示意圖，以及布料置於本發明第二較佳實施例上經連續性加工後所切割形成的布料外觀俯視平面示意圖。本發明第二較佳實施例相較於本發明第一較佳實施例的差異在於，本發明第二較佳實施例中的布料50被預先規劃設計並編織出與第一較佳實施例不同的另一布花51範圍；因此，為了節省設計花位對接銷片40與銷片槽31形狀的時間，亦可以就該布花51的外觀與該雷射切割線槽33的位置而簡易地將該花位對接銷片40與該銷片槽31設計成如圖中所示的圓形(幾何形狀)；故當該花位對接銷片40固定於該布料50下方，且當該花位對接銷片40置入該銷片槽31後，該布料50相對於布料定位結構10的位置如「圖9」所示，由該「圖9」可看出該布料50的該布花51範圍有部份是覆蓋住該雷射切割線槽33的；因此，當該布料50固定於該布料定位結構10上並接受連續性加工(整燙、熱壓、印染、切割)後，最終該布料50外圍的該切除區域52被雷射切割機依該切割線53切割成如「圖10」所示的鞋面半成品。Please also refer to FIG. 9 and FIG. 10 at the same time; in the second preferred embodiment of the present invention, a schematic view of the position of the mating pin on the position of the pin after being placed in the pin slot, and the cloth placed in the present A schematic plan view of the appearance of the cloth formed by cutting after continuous processing on the second preferred embodiment of the invention. The difference between the second preferred embodiment of the present invention and the first preferred embodiment of the present invention is that the fabric 50 of the second preferred embodiment of the present invention is pre-planned and woven differently from the first preferred embodiment. The other cloth 51 range; therefore, in order to save the time for designing the shape of the mating pin 40 and the pin slot 31, the appearance of the cloth 51 and the position of the laser cutting slot 33 can be easily The flower position butt pin 40 and the pin groove 31 are designed to have a circular shape (geometry) as shown in the drawing; therefore, when the flower position butt pin 40 is fixed under the cloth 50, and when the flower position After the butt pin 40 is placed in the pin slot 31, the position of the cloth 50 relative to the cloth positioning structure 10 is as shown in FIG. 9 , and the cloth 51 range of the cloth 50 can be seen from FIG. 9 . Part of the cloth is covered by the laser cutting groove 33; therefore, when the cloth 50 is fixed to the cloth positioning structure 10 and subjected to continuous processing (polishing, hot pressing, printing, cutting), the cloth is finally finished. The cut-out area 52 of the periphery 50 is cut by the laser cutting machine according to the cutting line 53 into an upper as shown in Fig. 10. Semi finished product.

10‧‧‧布料定位結構
20‧‧‧加工基座
21‧‧‧穿孔
22‧‧‧邊框
30‧‧‧對位板
31‧‧‧銷片槽
32‧‧‧負壓氣孔
33‧‧‧雷射切割線槽
40‧‧‧花位對接銷片
41‧‧‧本體
42‧‧‧定著件
50‧‧‧布料
51‧‧‧布花
52‧‧‧切除區域
53‧‧‧切割線10‧‧‧cloth positioning structure
20‧‧‧Processing base
21‧‧‧Perforation
22‧‧‧Border
30‧‧‧ alignment board
31‧‧‧ pin slot
32‧‧‧negative pressure pores
33‧‧‧Laser cutting trunking
40‧‧‧Floating docks
41‧‧‧Ontology
42‧‧‧ 定件
50‧‧‧ cloth
51‧‧‧ cloth flowers
52‧‧‧Resection area
53‧‧‧ cutting line

圖1，為本發明第一較佳實施例分解的等角外觀示意圖。 圖2，為本發明「圖1」組立後的等角外觀示意圖。 圖3，為本發明第一較佳實施例中花位對接銷片與布料進行對位固定的等角          外觀示意圖。 圖4，為本發明第一較佳實施例中花位對接銷片置入銷片槽後相對於布料位置的俯視平面示意圖。 圖5，為布料相對於本發明第一較佳實施例中雷射切割線槽所形成切除區域與切割線的俯視平面示意圖。 圖6，為布料置於本發明第一較佳實施例上經連續性加工後所切割形成的布料外觀俯視平面示意圖。 圖7，為本發明第二較佳實施例分解的等角外觀示意圖。 圖8，為本發明「圖7」組立後的等角外觀示意圖。 圖9，為本發明第二較佳實施例中花位對接銷片置入銷片槽後相對於布料位置的俯視示意圖。 圖10，為布料置於本發明第二較佳實施例上經連續性加工後所切割形成的布料外觀俯視平面示意圖。1 is a schematic exploded isometric view of a first preferred embodiment of the present invention. Fig. 2 is a schematic view showing the equiangular appearance of the "Fig. 1" of the present invention. Fig. 3 is a perspective view showing the equiangular appearance of the flower position butt joint pin and the cloth in the first preferred embodiment of the present invention. 4 is a top plan view of the position of the mating pin of the first embodiment of the present invention after being placed in the pin slot with respect to the position of the cloth. Fig. 5 is a top plan view showing the cut-away area and the cutting line formed by the cloth in relation to the laser cutting groove in the first preferred embodiment of the present invention. Fig. 6 is a top plan view showing the appearance of a cloth which is cut after continuous processing on the first preferred embodiment of the present invention. Figure 7 is a schematic exploded isometric view of a second preferred embodiment of the present invention. Fig. 8 is a schematic view showing the equiangular appearance of the "Fig. 7" of the present invention. FIG. 9 is a top plan view showing the position of the mating pin after being placed in the pin slot according to the second preferred embodiment of the present invention. Fig. 10 is a top plan view showing the appearance of a cloth which is cut after continuous processing on the second preferred embodiment of the present invention.

10‧‧‧布料定位結構 10‧‧‧cloth positioning structure

20‧‧‧加工基座 20‧‧‧Processing base

21‧‧‧穿孔 21‧‧‧Perforation

22‧‧‧邊框 22‧‧‧Border

30‧‧‧對位板 30‧‧‧ alignment board

31‧‧‧銷片槽 31‧‧‧ pin slot

32‧‧‧負壓氣孔 32‧‧‧negative pressure pores

33‧‧‧雷射切割線槽 33‧‧‧Laser cutting trunking

40‧‧‧花位對接銷片 40‧‧‧Floating docks

41‧‧‧本體 41‧‧‧Ontology

42‧‧‧定著件 42‧‧‧ 定件

Claims (10)

一種提供連續性加工使用的布料定位結構，其特徵在於所述布料定位結構(10)包括一加工基座(20)、一設於該加工基座(20)上的對位板(30)與至少一花位對接銷片(40)；其中，該加工基座(20)具有複數的穿孔(21)，而該對位板(30)具有至少一與該花位對接銷片(40)匹配的銷片槽(31)、複數的負壓氣孔(32)與至少一雷射切割線槽(33)；藉由該花位對接銷片(40)固定於一布料(50)後匹配置入該銷片槽(31)，而達成將該布料(50)定位於該布料定位結構(10)上以提供連續性加工。A fabric positioning structure for providing continuous processing, characterized in that the fabric positioning structure (10) comprises a processing base (20), a alignment plate (30) disposed on the processing base (20) and At least one flower-position butt pin (40); wherein the processing base (20) has a plurality of perforations (21), and the alignment plate (30) has at least one matching the flower-position docking pin (40) a pin slot (31), a plurality of negative pressure air holes (32) and at least one laser cutting slot (33); the mating pin (40) is fixed to a cloth (50) and matched and placed The pin slot (31) achieves positioning of the cloth (50) on the fabric positioning structure (10) to provide continuous processing. 如申請專利範圍第1項所述提供連續性加工使用的布料定位結構，其中所述花位對接銷片(40)包括有一用以匹配置入該銷片槽(31)的本體(41)與一固接於該本體(41)上並用以固定該布料(50)的定著件(42)。A fabric positioning structure for continuous processing, as described in claim 1, wherein the flower position butt pin (40) includes a body (41) for matching the insertion of the pin groove (31) with A fixing member (42) fixed to the body (41) for fixing the cloth (50). 如申請專利範圍第2項所述提供連續性加工使用的布料定位結構，其中所述定著件(42)為一工業用魔鬼氈或一金屬釘。A fabric positioning structure for continuous processing is provided as described in claim 2, wherein the fixing member (42) is an industrial devil felt or a metal nail. 如申請專利範圍第2或3項所述提供連續性加工使用的布料定位結構，其中所述本體(41)為一木質片或塑膠片。A cloth positioning structure for continuous processing is provided as described in claim 2 or 3, wherein the body (41) is a wood piece or a plastic piece. 如申請專利範圍第2或3項所述提供連續性加工使用的布料定位結構，其中所述本體(41)與所述定著件(42)之間的固接手段是選自車縫、膠合、鉚合、螺鎖的其中之一或其組合。A fabric positioning structure for continuous processing, as described in claim 2 or 3, wherein the fixing means between the body (41) and the fixing member (42) is selected from the group consisting of sewing and gluing. One of or one of a combination of riveting and screwing. 如申請專利範圍第4項所述提供連續性加工使用的布料定位結構，其中所述本體(41)與所述定著件(42)之間的固接手段是選自車縫、膠合、鉚合、螺鎖的其中之一或其組合。A fabric positioning structure for continuous processing, as described in claim 4, wherein the fixing means between the body (41) and the fixing member (42) is selected from the group consisting of sewing, gluing, and riveting. One of or a combination of screw locks. 如申請專利範圍第1、2或3項所述提供連續性加工使用的布料定位結構，其中所述加工基座(20)周邊設有一邊框(22)。A cloth positioning structure for continuous processing is provided as described in claim 1, 2 or 3, wherein a periphery of the processing base (20) is provided with a frame (22). 如申請專利範圍第4項所述提供連續性加工使用的布料定位結構，其中所述加工基座(20)周邊設有一邊框(22)。A cloth positioning structure for continuous processing is provided as described in claim 4, wherein a periphery of the processing base (20) is provided with a frame (22). 如申請專利範圍第5項所述提供連續性加工使用的布料定位結構，其中所述加工基座(20)周邊設有一邊框(22)。A fabric positioning structure for continuous processing is provided as described in claim 5, wherein a periphery of the processing base (20) is provided with a frame (22). 如申請專利範圍第6項所述提供連續性加工使用的布料定位結構，其中所述加工基座(20)周邊設有一邊框(22)。A fabric positioning structure for continuous processing is provided as described in claim 6, wherein a periphery of the processing base (20) is provided with a frame (22).