200928133 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種方法及裝置,特別是指一種將螺 孔座鑲入非金屬件的方法及具有螺孔座的非金屬件裝置。 【先前技術】 - 如圖1所示,一般將二物件組結在一起的方法,是採 . 用將數螺孔座U安裝固定在一第一物件2i,接著將數螺栓 ❹ 12穿過一第二物件22的數穿孔221並鎖入前述螺孔座u 的方式,使該第一物件21與該第二物件22得以結合。 前述螺孔座11必須具有極佳的穩固性及垂直度,才能 防止在鎖結過程或進行其他加工過程產生搖晃,導致影響 最終產品品質。 【發明内容】 因此,本發明之第一目的是在提供一種可以提高螺孔 座穩固性及垂直度以提升品質的將螺孔座镶入非金屬件的 方法。 ❹ 本發明之第二目的是在提供一種可以提高螺孔座穩固 ' 性及垂直度以提升品質的具有螺孔座的非金屬件裝置。 ' 於是,本發明將螺孔座鑲入非金屬件的方法,包含下 列步驟: (A) 在一非金屬件錯製一容置孔; (B) 、、且立螺、孔座及一調整單元,該螺孔座包括呈相背的一 頂面與底面,連結該頂面與該底面的外周面,及〆自 該頂面朝向該底面設置的螺孔該調整單元包括一鎖入 5 200928133 該螺孔的螺桿,一套置於該螺桿並貼觸該螺孔座的頂面 的控制墊片,一套置於該螺桿並位於該控制墊片頂侧的 固定塾片’及一螺鎖於該螺桿並抵觸該固定墊片的螺帽 ’且該控制墊片的外徑小於該容置孔的孔徑,該固定墊 片的外徑大於該容置孔的孔徑; (c)在該螺孔柱的外周面、底面塗佈黏膠; (D) 將該螺孔柱置入該容置孔,直到該固定墊片碰觸該非金 屬件的外表面; (E) 調整該螺孔柱的垂直度;及 (F) 拆除該調整單元,使該螺孔柱的頂面與該非金屬件的一 外表面存有一間距。 藉由上述步驟,使本發明具有可以提高該螺孔座的穩 固性與垂直度’進而可以提升品質的特性。 本發明具有螺孔座的非金屬件裝置,包含一非金屬件 、—粉體材料、一螺孔座及一黏膠。 該非金屬件包括自一外表面設置的一容置孔,該容置 孔是由一孔底面及一孔周面所配合形成。 該粉體材料用以填入該容置孔。 該螺孔座包括呈相背的一頂面與一底面,連結該頂面 與該底面的外周面’及一自該頂面朝向該底面設置的螺孔 〇 該黏膠塗佈在該螺孔座的外周面、底面與該容置孔的 孔周面及該粉體材料之間’使該螺孔座與該非金屬件黏合 膠結’且該螺孔座的頂面與該非金屬件的外表面之間存有 6 200928133 一間距。 藉由上述組成,使本發明具有可以提高該螺孔座的穩 固性與垂直度,進而可以提升品質的特性。 【實施方式】 本發明將螺孔純入非金屬㈣方法及具有螺孔座的 非金屬件裝置則述以及其他技術内容、特點與功效,在以 ' 下配合參考圖式之一較佳實施例的評細說明中,將可清楚 的明白。 ❹ 如圖2流程圖所示,本發明將螺孔座鑲入非金屬件的 方法該較佳實施例,包含有步驟3〇〜39。 在步驟30巾,如圖2、3、4所示,先製備一非金屬 件40及-螺孔座5〇 ’然後自該非金屬件4〇的一外表面“ 錯製-預定尺寸的容置孔42,且該容置孔42的孔深u較 該螺孔座50的長度L2長約2〜5麵。進一步地,該容置孔 42是由一孔底面421及一孔周面422所配合形成。 Ο 在本發明中,該非金屬件40可為花崗石、大理石、各 類化石、木材、玻璃及其他非金屬物。 該螺孔座50包括呈相背設置的-頂面51與-底面52 連結該頂面51與該底面52的外周面53,及—自該頂面 Μ朝向該底面52設置的螺孔54 ’較佳地,該螺孔座5〇更 包括設置於該外周面53的數溝槽55,具有可以使該外周面 53呈非平滑面以增加該螺孔座50與該非金屬件4〇之間的 結合強度的作用,此外,該螺孔座5〇更包括設置於該^面 52的-溝槽56’具有可以增加該螺孔座5()的底部強度的 7 200928133 作用。 步驟31中,對該容置孔42進行乾燥作業,可以採 用低溫烘乾的方式或利用空氣壓縮機產生氣壓的方式,施 作於該容置孔42使該容置孔42能快速乾燥。由於在對該 非金屬件40進行氣作㈣㈣,通常會錢冷卻水以降 低鑽孔溫度同時減少粉末飛揚,但是因為水分的存在會降 低該螺孔座50與該非金屬件4〇之間的結合強度所以必 須對該容置孔42進行乾燥作業以除去殘留在該非金屬件40 的孔隙内的水分。當然,也可以採用將該非金屬件4〇靜置 的方式使其自然乾燥,只是這種方式需要較長的等待時間 0 如圖2、5所示,在步驟32中,組立該螺孔座5〇及 調整單元6G’該調整單元6〇包括—螺桿61、一控制塾 片62、一固定墊片63及一螺帽料。該控制墊片62的外徑 小於該容置孔42的孔徑,且厚度約為1〜2刪,該固定墊 片63的外徑則大於該容置孔42的孔徑(見圖8)。 組立時,先將該螺捍61螺鎖入該螺孔座5〇的螺孔54 ,然後將該控制墊片62套置於該螺桿61並位於該螺孔座 50的頂面51 ’接著將該固定墊片63套置該螺桿61並位於 該控制墊片62的頂側,最後將該螺帽64螺鎖於該螺桿61 並抵於該固定墊片63,如此就可以使該固定墊片〇與該控 制墊片62獲得定位,同時完成該螺孔座5〇與該調整單元 60的組立作業。 如圖2、6所不,在步驟33中,將粉體材料70填入 200928133 該容置孔42内,該粉體材料7〇在本發明中可為石粉及其 均等物,因為該容置孔42是鐵製而成,所以該孔底面42^ 呈非平面狀,可以藉由該粉體材料7〇填平該孔底面42ι, 以增加該螺孔座50的穩固性(見圖1〇),此外,如圖工〇 所示,還可以藉由該粉體材料7〇調控該螺孔座5〇的鑲入 深度位置,使該螺孔座50的頂面51與該非金屬件4〇的外 表面41之間存在約1〜2麵的一間距90,該間距9〇可做為 曰後再對該非金屬件40加工的磨耗裕度。 如圖2、7所示,在步驟34中,在該螺孔座5〇的外 周面53、底面52塗佈黏膠8〇,該黏膠8〇可為環氧樹脂、 黑白膠、塑鋼土、雙劑型黏膠、單劑型黏膠其其均等物。 如圖2、8所示,在步驟35.中,將該螺孔座5〇置入 該容置孔42内,且在置入過程中可同時轉動該螺孔座5〇, 以使該黏膠80能均勻地分佈於該容置孔42的孔周面422, 同時可以迫使該容置孔42内的氣體排出以減少該黏膠8〇 產生氣泡,進而可以增加該螺孔座5〇與該非金屬件的 黏合膠結強度。 在步驟36中,調整該螺孔座50的鑲入深度,當該螺 孔座50的底面52碰觸到該粉體材料7〇,持續轉動該螺孔 座50直到該固定墊片63碰觸到該非金屬件4〇的外表面μ ,在轉動過程中,同時具有可以壓緊該粉體材料7()的作用 ,當該固定墊片63碰觸到該非金屬件4〇的外表面41,該 控制墊片62恰好進入該容置孔42内,且藉由該控制墊片 62的厚度約1〜2腿,使該螺孔座50的頂面51與該非金屬 200928133 件40的外表面41恰好具有約1〜2 mm的間距。 值得說明的是,可以藉由該黏朦80填滿該螺孔座5〇 的溝槽55、56,此外,藉由該粉體材料7〇填平該孔底面 421,不但可以減少該黏膠8〇的使用量還可以增加該螺 孔座50的穩固性,相對可以增加該螺孔座%與該非金屬 件40結合後的整體結構強度。 如圖2、9所示,在步驟37 +,調整該螺孔座5〇的 垂直度’是利用—直角規1⑼三點調整該螺桿61與該非金 屬件40的外表面41之間的垂直度,相對可以調整該螺孔 座50的垂直度,具有可以提高鎖結品質的作用。 如圖2、9、1 〇所示,在步驟38中,拆除該調整單 =60接著進行清潔作業,是先旋鬆該螺帽64至脫離該螺 才干61,然後將該固定塾片63、該控制塾片^取離該螺桿 61 ’最後再轉動該螺桿61使其脫離該螺孔座%的螺孔η ,完成該調整單元60的拆除作業後’該螺孔S 50的頂面 51與該非金屬件40的外表面41之間自然形成有約 的該間距%。之後’清除溢出的該黏膠⑽,使該外表面41 與該螺孔座50保持乾淨。 在步驟39申,進行養生,因為該黏膠8〇硬化之後, 需要有&凡全反應的時間(即業界所稱之養生時間),過了 養生時間後’該歸80呈完全穩定狀態,之後再對該非金 屬件40 it行其他加工,就無會破壞該螺孔座5〇之穩固性 的疑慮。 u 如圓1 0、3、4所示,本發明具有螺孔座的非金屬 10 200928133 件裝置該較佳實施例,包含一非金屬件4〇、一粉體材料川 、一螺孔座50及一黏膠80。 該非金屬件40包括自一外表面41鑽製一預定尺寸的 谷置孔42 ’且該容置孔42的孔深u較該螺孔座5〇的長度 =長約2〜5腿。進一步地,該容置孔42是由一孔底面 及-孔周® 422所配合形成。此外,在本發明中 金屬件的可為㈣石、大理石、各類化石及其均等物。 ❹BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to a method and apparatus, and more particularly to a method of inserting a screw socket into a non-metallic member and a non-metallic device having a screw socket. [Prior Art] - As shown in Fig. 1, the method of generally combining two objects together is to mount and fix the number of screw holes U to a first object 2i, and then pass the number of bolts 12 through one. The number of perforations 221 of the second object 22 is locked into the screw hole holder u such that the first object 21 and the second object 22 are combined. The aforementioned screw socket 11 must have excellent stability and verticality to prevent wobble during the locking process or other processing, which may affect the quality of the final product. SUMMARY OF THE INVENTION Accordingly, it is a first object of the present invention to provide a method of inserting a screw hole holder into a non-metallic member which can improve the stability and verticality of the screw hole seat to improve the quality.第二 A second object of the present invention is to provide a non-metallic device having a screw socket that can improve the stability and verticality of the screw hole holder to improve the quality. Thus, the method for inserting a screw hole seat into a non-metal member according to the present invention comprises the following steps: (A) misaligning a receiving hole in a non-metal member; (B), and the vertical screw, the hole seat and an adjustment The unit includes a top surface and a bottom surface opposite to each other, an outer peripheral surface connecting the top surface and the bottom surface, and a screw hole disposed from the top surface toward the bottom surface, the adjusting unit includes a locking 5 200928133 a screw of the screw hole, a set of control pads placed on the screw and contacting the top surface of the screw hole seat, a set of fixed bucks placed on the screw and located on the top side of the control pad and a screw lock The screw is in contact with the nut of the fixing gasket and the outer diameter of the control gasket is smaller than the diameter of the receiving hole, and the outer diameter of the fixing gasket is larger than the diameter of the receiving hole; (c) the screw Applying adhesive to the outer peripheral surface and bottom surface of the hole column; (D) placing the screw hole post into the receiving hole until the fixing gasket touches the outer surface of the non-metal member; (E) adjusting the screw hole column And (F) removing the adjusting unit such that a top surface of the screw post has a distance from an outer surface of the non-metal member. By the above steps, the present invention has the characteristics that the stability and the perpendicularity of the screw hole holder can be improved, and the quality can be improved. The non-metallic device of the invention has a screw hole seat, comprising a non-metal member, a powder material, a screw hole seat and a glue. The non-metallic member includes a receiving hole disposed from an outer surface, and the receiving hole is formed by a bottom surface of the hole and a peripheral surface of the hole. The powder material is used to fill the receiving hole. The screw hole holder includes a top surface and a bottom surface opposite to each other, an outer peripheral surface connecting the top surface and the bottom surface, and a screw hole provided from the top surface toward the bottom surface. The adhesive is coated on the screw hole. The outer peripheral surface of the seat, the bottom surface and the peripheral surface of the hole of the receiving hole and the powder material 'bond the screw hole seat to the non-metal member' and the top surface of the screw hole seat and the outer surface of the non-metal member There is a gap between 6 200928133. According to the above composition, the present invention has the characteristics that the stability and the perpendicularity of the screw hole holder can be improved, and the quality can be improved. [Embodiment] The present invention relates to a method for purifying a screw hole into a non-metal (four) method and a non-metal device having a screw hole holder, and other technical contents, features and effects, and a preferred embodiment of the following reference pattern In the detailed description, it will be clearly understood. The method of the present invention for inserting a screw hole into a non-metallic member is shown in the flow chart of Fig. 2. The preferred embodiment comprises steps 3 to 39. In step 30, as shown in FIGS. 2, 3, and 4, a non-metal member 40 and a screw hole holder 5' are prepared first and then an outer surface of the non-metal member 4" is "missed - a predetermined size is accommodated. The hole 42 and the hole depth u of the receiving hole 42 are longer than the length L2 of the screw hole holder 50 by about 2 to 5. Further, the receiving hole 42 is formed by a hole bottom surface 421 and a hole circumferential surface 422. In the present invention, the non-metal member 40 may be granite, marble, various types of fossils, wood, glass, and other non-metallic objects. The screw hole holder 50 includes a top surface 51 disposed opposite to each other. a bottom surface 52 connecting the top surface 51 and the outer circumferential surface 53 of the bottom surface 52, and a screw hole 54' disposed from the top surface Μ toward the bottom surface 52. Preferably, the screw hole holder 5 further includes a periphery disposed on the outer circumference The number of grooves 55 of the surface 53 has a function of making the outer peripheral surface 53 a non-smooth surface to increase the bonding strength between the screw hole holder 50 and the non-metal member 4〇. Further, the screw hole holder 5〇 further includes The groove 56' disposed on the face 52 has a function of 7 200928133 which can increase the strength of the bottom of the screw hole 5 (). In step 31, the receiving hole 42 The drying operation can be performed by using a low-temperature drying method or by using an air compressor to generate air pressure, and the accommodating hole 42 can be quickly dried by the accommodating hole 42. Since the non-metal member 40 is pneumatically produced (4) (4) Usually, the cooling water is used to reduce the drilling temperature and reduce the powder flying, but since the presence of moisture reduces the bonding strength between the screw hole 50 and the non-metal member 4, the receiving hole 42 must be dried. In order to remove the moisture remaining in the pores of the non-metallic member 40. Of course, it is also possible to dry the non-metallic member 4 in a natural manner, but this method requires a long waiting time. As shown, in step 32, the screw hole holder 5 and the adjustment unit 6G' are assembled to include a screw 61, a control blade 62, a fixing spacer 63 and a nut material. The outer diameter of the sheet 62 is smaller than the diameter of the receiving hole 42 and the thickness is about 1 to 2, and the outer diameter of the fixing spacer 63 is larger than the diameter of the receiving hole 42 (see FIG. 8). The threaded bolt 61 is screwed into the screw hole seat 5 a screw hole 54 is then placed on the screw 61 and located on the top surface 51 of the screw socket 50. The fixing gasket 63 is then placed on the screw 61 and located on the control gasket 62. The top side of the screw is finally screwed to the screw 61 and abuts the fixing washer 63, so that the fixing washer and the control washer 62 can be positioned, and the screw housing 5 is completed. The assembly work of the adjustment unit 60. As shown in Figs. 2 and 6, in step 33, the powder material 70 is filled into the accommodating hole 42 of 200928133, which may be The stone powder and its equalizer, because the receiving hole 42 is made of iron, the bottom surface 42 of the hole is non-planar, and the bottom surface 42ι of the hole can be filled by the powder material 7〇 to increase the screw hole. The stability of the seat 50 (see FIG. 1A), in addition, as shown in the figure, the position of the insertion depth of the screw hole holder 5〇 can be adjusted by the powder material 7〇, so that the screw hole seat 50 is There is a spacing of about 1 to 2 faces between the top surface 51 and the outer surface 41 of the non-metallic member 4〇, and the spacing 9〇 can be used as the crucible and then the non-metal The wear margin of the piece 40 machining. As shown in FIG. 2 and FIG. 7, in step 34, the outer peripheral surface 53 and the bottom surface 52 of the screw hole holder 5 are coated with adhesive 8 〇, which may be epoxy resin, black and white rubber or plastic steel. Two-component adhesive, single-dose adhesive and its equivalent. As shown in FIG. 2 and FIG. 8 , in step 35, the screw hole holder 5 is placed into the receiving hole 42 , and the screw hole holder 5 可 can be rotated simultaneously during the insertion process to make the adhesive. The glue 80 can be evenly distributed on the hole peripheral surface 422 of the accommodating hole 42 , and at the same time, the gas in the accommodating hole 42 can be forced to be discharged to reduce bubbles generated by the adhesive 〇 , and the screw hole can be increased. The bond strength of the non-metallic piece. In step 36, the insertion depth of the screw hole holder 50 is adjusted. When the bottom surface 52 of the screw hole holder 50 touches the powder material 7〇, the screw hole holder 50 is continuously rotated until the fixing spacer 63 touches. The outer surface μ of the non-metallic member 4 , has a function of pressing the powder material 7 ( ) during the rotation, and when the fixing spacer 63 touches the outer surface 41 of the non-metallic member 4 , The control gasket 62 just enters the accommodating hole 42, and the top surface 51 of the screw hole holder 50 and the outer surface 41 of the non-metal 200928133 member 40 are made by the thickness of the control gasket 62 of about 1 to 2 legs. It has a pitch of about 1 to 2 mm. It should be noted that the grooves 55 and 56 of the screw hole holder 5 can be filled by the adhesive 80. In addition, the bottom surface 421 of the hole can be filled by the powder material 7〇, thereby not only reducing the adhesive. The use amount of 8 turns can also increase the stability of the screw hole holder 50, and the overall structural strength of the screw hole seat % combined with the non-metal member 40 can be relatively increased. As shown in FIG. 2 and FIG. 9, in step 37+, adjusting the perpendicularity of the screw hole holder 5' is to adjust the perpendicularity between the screw 61 and the outer surface 41 of the non-metal member 40 by three points of the right angle gauge 1 (9). The verticality of the screw hole holder 50 can be adjusted relatively, and the function of improving the quality of the lock can be improved. As shown in FIG. 2, FIG. 9 and FIG. 1 , in step 38, the adjustment sheet=60 is removed and then the cleaning operation is performed. The nut 64 is first loosened to disengage the screw 61, and then the fixed blade 63 is removed. The control blade 2 is taken away from the screw 61' and finally the screw 61 is rotated away from the screw hole η of the screw hole holder. After the removal operation of the adjusting unit 60 is completed, the top surface 51 of the screw hole S 50 is The outer surface 41 of the non-metallic member 40 is naturally formed with the pitch %. Thereafter, the overflowed adhesive (10) is removed to keep the outer surface 41 and the screw hole holder 50 clean. In step 39, the health is carried out, because after the adhesive is hardened, it needs to have & time of total reaction (that is, the industry's health time), after the health time, the 80 is completely stable. After that, the non-metal member 40 is further processed, and there is no doubt that the stability of the screw hole holder 5 is broken. u As shown in the circle 10, 3, 4, the present invention has a non-metallic 10 with a screw-hole holder. The preferred embodiment includes a non-metallic member 4, a powder material, and a screw-hole holder 50. And a viscose 80. The non-metallic member 40 includes a valley hole 42' of a predetermined size drilled from an outer surface 41 and the hole depth u of the receiving hole 42 is longer than the length of the screw hole holder 5 by about 2 to 5 legs. Further, the receiving hole 42 is formed by a hole bottom surface and a hole hole surface 422. Further, in the present invention, the metal member may be (four) stone, marble, various types of fossils, and the like. ❹
G 該粉體材料7G在本發财可為石粉及其均等物,是用 以填入該容置孔42内以填平該孔底面421。 該螺孔座50包括呈相背設置的一頂面51與_底面μ ’連結該頂面5i與該底面52的外周面$及二自該頂面 51朝向該底面52設置的螺孔54,較佳地,該螺孔座%更 包括設置於該外…3的數溝槽55,及設置於該底面Μ 的一溝槽56。 該螺孔座50置入該容置孔42内,且該頂面51與該非 金屬件4〇的外表面41之間存在一高度間距90,該間距90 約為1〜2麵’可做為日後再對該非金屬件4〇加 裕度。 該黏膠80是塗佈在該螺孔座5〇的外周面53底面W 與該容置孔42的孔周面422、孔底面42ι及該粉體材料% 之間,以使該螺孔冑50與該非金屬件4〇得以藉由該黏膠 80相互膝結,同時使該螺孔座5()具有極佳的穩固性。 在本發明中,該黏膠80可為環氧樹脂、黑白膠、塑鋼 土、雙劑型黏膠、單劑型黏膠其其均等物。 200928133 歸納上述,本發明將螺孔座鑲入非金屬件的方法及具 有螺孔座的非金屬件裝置具有如下所述之功效及優點,故 確實能達成發明目的: 一、因為本發明可藉由該粉體材料70填平該容置孔42 的孔底面421,使本發明具有可以提高該螺孔座5〇的穩固 - 性以提升品質的功效及優點。 - 二、因為本發明在將該螺孔座50置入該容置孔42時 0 ’可以藉由同時轉動該螺孔座50迫使該容置孔42内的氣 體排出以減少該黏膠8〇產生氣泡,進而可以增加該螺孔座 5〇與該非金屬件40的黏合膠結強度,使本發明具有可以提 尚該螺孔座50的穩固性,相對可以提升品質的功效及優點 〇 三、因為本發明還藉由該直角規1〇〇調整該螺孔座5〇 的垂直度’使本發明具有可以提高該螺孔座5〇的垂直度, 相對可以提升品質的功效及優點。 Q 惟以上所述者,僅為本發明之一較佳實施例而已,當 不能以此限定本發明實施之範圍,即大凡依本發明申請專 利範圍及發明說明内容所作之簡單的等效變化與修飾皆 - 仍屬本發明專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一組合剖視,說明一般非金屬件鎖結的狀態; 圖2是本發明將螺孔座鑲入非金屬件的方法一較佳實 施例的流程圖; 圖3疋該較佳實施例的一剖視圖,說明具有一容置孔 12 200928133 的一非金屬件; 圖4是該較佳實施例的一剖視圖,說明一螺孔座; 圖5是該較佳實施例的一組合剖視圖’說明該螺孔座 與一調整單元組立後的狀態; 圖6是一類似於圖3的視圖,說明將粉體材料填入該 非金屬件的容置孔的狀態; 圖7是一類似於圖5的視圖,說明在該螺孔座的外周 面及底面塗佈黏膠; 圖8是該較佳實施例的一組合剖視圖,說明將該螺孔 座置入該容置孔的狀態; 圖9是一類似於圖8的視圖,說明利用一直角規調整 該螺孔座的垂直度;及 圖10是本發明具有螺孔座的非金屬件裝置一較佳實 施例的一組合刮視圖。 〇 13 200928133 【主要元件符號說明】 40 —非金屬件 56... .溝槽 41____外表面 60... .調整單元 42.·..容置孑匕 61"· .螺桿 4 21…孑L底面 62... .控制墊片 422...孔周面 63... .固定墊片 50....螺孔座 64... .螺帽 51____頂面 70... .粉體材料 5 2 ·…底面 80... .黏膠 53…·外周面 90... .間距 5 4….螺孑L 100" .直角規 55....溝槽 ❹ 14G The powder material 7G may be a stone powder and its equivalent in the present invention, and is used to fill the receiving hole 42 to fill the bottom surface 421 of the hole. The screw hole holder 50 includes a top surface 51 and a bottom surface μ′ disposed opposite to each other, and an outer peripheral surface of the top surface 5i and the bottom surface 52 and two screw holes 54 disposed from the top surface 51 toward the bottom surface 52. Preferably, the screw hole holder % further includes a plurality of grooves 55 disposed on the outer portion 3, and a groove 56 disposed on the bottom surface Μ. The screw hole holder 50 is disposed in the receiving hole 42, and a height interval 90 between the top surface 51 and the outer surface 41 of the non-metal member 4 is formed. The spacing 90 is about 1 to 2 surfaces. In the future, the non-metallic parts will be added to the margin. The adhesive 80 is applied between the bottom surface W of the outer peripheral surface 53 of the screw hole holder 5 and the hole peripheral surface 422 of the receiving hole 42 and the bottom surface 42ι of the hole and the powder material % to make the screw hole 胄The non-metallic member 50 and the non-metallic member 4 are kinked to each other by the adhesive 80, and the screw hole holder 5 () has excellent stability. In the present invention, the adhesive 80 may be an epoxy resin, a black and white rubber, a plastic steel, a two-part adhesive, or a single-dose adhesive. 200928133 In summary, the method of the invention for inserting a screw hole seat into a non-metal piece and the non-metal piece device having the screw hole seat have the following advantages and advantages, so that the object of the invention can be achieved: 1. Because the invention can be borrowed The powder material 70 fills the bottom surface 421 of the accommodating hole 42 so that the present invention has the effect and the advantage that the stability of the screw hole holder 5 can be improved to improve the quality. - Second, because the present invention inserts the screw hole holder 50 into the accommodating hole 42, 0' can force the gas in the accommodating hole 42 to be discharged by simultaneously rotating the screw hole holder 50 to reduce the viscosity. The air bubble is generated, and the bonding strength of the screw hole 5 〇 and the non-metal member 40 can be increased, so that the present invention has the effect of improving the stability of the screw hole holder 50 and relatively improving the quality and advantages. The present invention also adjusts the perpendicularity of the screw hole holder 5 by the right angle gauge 1', so that the present invention has the effect of improving the verticality of the screw hole holder 5, and improving the quality. The above is only a preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent change of the patent application scope and the description of the invention is Modifications - are still within the scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a combined cross-sectional view showing a state in which a general non-metallic member is locked; FIG. 2 is a flow chart showing a preferred embodiment of a method for inserting a screw-hole holder into a non-metallic member according to the present invention; 3 is a cross-sectional view of the preferred embodiment illustrating a non-metallic member having a receiving hole 12 200928133; FIG. 4 is a cross-sectional view of the preferred embodiment illustrating a screw hole holder; FIG. 5 is a preferred embodiment. FIG. 6 is a view similar to FIG. 3, illustrating a state in which a powder material is filled into a receiving hole of the non-metal member; FIG. 7 is a sectional view of the embodiment; It is a view similar to FIG. 5, illustrating that the outer peripheral surface and the bottom surface of the screw hole seat are coated with an adhesive; FIG. 8 is a combined sectional view of the preferred embodiment, illustrating that the screw hole seat is placed in the receiving hole Figure 9 is a view similar to Figure 8, illustrating the verticality of the screw socket with a straight angle gauge; and Figure 10 is a preferred embodiment of a non-metallic device having a threaded socket of the present invention. Combine the scrape view. 〇13 200928133 [Description of main component symbols] 40—Non-metal parts 56.... Groove 41____ outer surface 60... Adjustment unit 42.·..Receiving 孑匕61"·.Screw 4 21...孑L bottom surface 62... Control gasket 422... hole circumferential surface 63... Fixed gasket 50.... Screw socket 64... Nut 51____ Top surface 70. Body material 5 2 ·...Bottom surface 80... Adhesive 53...·Outer peripheral surface 90.... Spacing 5 4.... Screw L 100" . Right angle gauge 55.... Groove ❹ 14