201109133 六、發明說明: 【發明所屬之技術領域】 本揭示内容是有關於一種爆炸式打釘槍,且特別是有 關於一種可調整燃燒室之爆炸式打釘槍。 【先前技術】 一般的打釘搶,是用以將釘材打入工作件。而工作 φ 件又可區分為前工作件與後工作件,釘子由前工作件打 入至後工作件固定,並據以結合兩者。許多建築之木板, 就是利用打釘槍將之釘固於木柱框架上。 打釘槍以動力來源區分之,可分為電動式、氣動式 與爆炸式三類。其中爆炸式打釘搶係於一汽缸内點燃助 燃氣體與自燃氣體,進而產生強大衝擊力,來使釘材擊 穿水泥壁等極為堅硬之工作件。 目前,電動式打釘槍與氣動式打釘槍皆存在動力粗 Φ 調設計與微調設計。惟,爆炸式打釘搶僅能對於擊釘動 力進行粗調;而目前尚無其他針對爆炸式打釘槍微調之 機制。對爆炸式打釘搶之擊釘動力進行粗調的相關技 術,請參照美國第US-7048146號專利及日本特開第 2006-102914號專利,其技術簡述如下。 在美國第US-7048146號專利中,揭露以電子式檢測 裝置,將動能需求訊息回饋至電子式劑量閥,進而改變注 入的瓦斯混合量,藉以對不同長度之釘材提供不同大小的 動能。然而,由於爆炸式打釘搶工作環境惡劣,其本體 201109133 於操作時會承受強力的震動’因而使裝設於其上的電子 裝置容易損壞,且電子式劑量閥成本頗高,致使此技術之 爆炸式打釘搶造價及維修費用不斐。 在曰本特開第2006-102914號專利中,揭露一種擊釘 深度調整件,其利用保險長度變化來改變擊釘深度,因而 在動力無法被微調的情況下,微調擊釘深度以達成與微調 動力相近的效果。然而,此技術在進行打擊時所多出來的 動能皆由搶體吸收,易造成搶體壽命減短。 【發明内容】 本揭示内容之-技術態樣在於提供 室之爆炸式打釘搶,進而使爆炸式打 ,J調整燃燒 制。 T•存麵力微調機 根據本揭示内容之一技術態樣,— 燒室之爆炸式打釘搶,包括一搶體及—種可調整燃 包括-燃燒室及-限止件。燃燒室包:巧裝置。搶體 閥套筒,而限止件則係位於搶體前 ^仏結構及一 括一汽缸、一進氣口及一抵靠部;^〉飞缸結構包 於-相對位置’且抵靠部前端具有二=與汽缸固設 係位於汽缸之外壁,用以吸入一助燒體,進氣口則 筒則係套設於汽缸外。連動萝詈係:軋體,而上述閥套 抵頂-待釘物時,連動體上,以於 燃燒室。連動裝置包括一推抿件、〜h札口,進而密閉 推抵件係用以前端推抵待釘物,且It件及一調整件。 ;未抵頂待釘物時,受 201109133 限止件所限止,推抵件後端具有一第一連接部。定位件 則部份穿設入搶體内,其包括一第二連接部以及一腳 架;腳架係向後延伸以穿設入搶體内,且固設於閥套筒, 並受彈性體所推抵。調整件係用以結合第一連接部及第 二連接部,且控制第一連接部及第二連接部之一接合距 離,進而因推抵件限止於限止件,使接合距離之改變造成 腳架暨閥套筒於推抵件未抵頂待釘物時,與汽缸之相對位 置產生改變,因而得以調整進氣口之開口大小。藉此,調 ® 整件可於燃燒室常態開啟時,控制閥套筒遮蔽進氣口的 程度,進而微調助燃氣體之濃度。 根據本揭示内容之另一技術態樣,提供一種可調整 燃燒室之爆炸式打釘搶,包括一燃燒室、一連動裝置及一 限止件。燃燒室係由一汽缸及一閥套筒所組成,閥套筒係 套設於汽缸外,且閥套筒作動時,封閉汽缸之一進氣口; 並於閥套筒未作動時,開啟進氣口,以吸入一助燃氣體。 連動裝置係後端固設於閥套筒,前端用以抵頂一待釘物, • 藉以於前端推抵待釘物時,連動閥套筒以封閉進氣口。限 止件係用以於連動裝置未推抵待釘物時,限止連動裝置前 端與汽缸之相對距離。其中,連動裝置具有一擊釘深度調 整結構,以調整連動裝置之整體長度,進而連動閥套筒, 以控制進氣口之開口大小,並藉以微調助燃氣體之濃度。 藉此,前述技術態樣可利用連動裝置控制進氣口之開 口大小,以微調助燃氣體之濃度,進而得以微調爆炸式打 釘搶之動力。另又可運用限止件配合待釘物調整連動裝置 前端與汽缸之相對距離。故本揭示内容得以有效微調助燃 201109133 氣體濃度,使爆炸式打釘搶存在動力微調機制。 【實施方式】 請參照第1圖,第】圖係為本揭示内容施 :可:整燃燒室之爆炸式打釘搶的結構示意圖。第“ 勺括之可調整燃燒室之爆炸式打釘搶1〇〇, 一連動裝置300及-限止件•為 run 式將釘材射出方向定義為前端方 向,將釘材射出方向之相反方向定 =向前端方向的部位為各構件之前端向二 编方向的部位為各構件之後端。 更 燃燒室200係由—、、与& 成,__係二;^ Λ一恥筒220所組 於燃燒室·作動時,封閉汽缸210之4套氣::係 並於燃燒室2GG未作_,耻進氣口 助燃氣體。 及 抿頂連Si SO0係後端固設於閥套筒220,前端用以 220 /藉以於前端推抵待釘物時,連動闕套筒 未推掖嘍U 口21 “限止件110係用以於連動裝置300 止連動裝置300前端與汽缸21〇之相 二連動裝置3〇0具有一擊釘深度調整結構 的打擊深度。具體而言,擊釘深度調整 調整連動裝置3〇0之整體長度,進而連 闕套同2〇,以控制進氣口 211之開口大小,並藉以微 201109133 調助燃氣體之濃度。藉此,本實施方式利用連動裝置3〇〇 控制進氣口 211之開口大小,以微調助燃氣體之濃度, 進而得以微調爆炸式打釘搶1〇〇之動力,而達成微 子的打擊深度之功效。值得注意的是,基於工安需求, 爆炸式打釘搶100應設置一保險裝置,則保險裝置便可 被結合或連動於連動裴置300。 請參照第2圖,第2圖係為本揭示内容另一實施方 式之可調整燃燒室之爆炸式打釘搶的結構示意圖。第2 圖中,本實施方式之可調整燃燒室之爆炸式打釘搶 400,包括一槍體5〇〇及一連動裝置6〇〇。 搶體500包括一燃燒室51〇及一限止件41〇❶燃燒 至510包括7飞紅結構520及一閥套筒530,而限止件 410則係位於搶體5〇〇前端搶管處。汽缸結構5包括一 汽缸521、一進氣口 522及一抵靠部523 ;抵靠部523 係與汽缸521汽缸一體,由汽缸周面向外凸伸而成,且 抵靠部523前端具有一彈性體524 ;進氣口 522則係位 於汽缸521之外壁,用以吸入一助燃氣體;而上述閥套 筒530則係套設於汽缸521外。 連動裝置600係配設於搶體5〇〇上,以於抵頂一待 釘物時,連動閥套筒530以封閉進氣口 522,進而密閉 燃燒室510。連動裝置600包括一推抵件61〇、一定位件 620及一調整件630。推抵件61〇係用以前端推抵待釘 物,且於未抵頂待釘物時,受限止件41 〇所限止,推抿件 610後端具有一第一連接部611。定位件62〇則部份穿設 入搶體500内,其包括一第二連接部621以及一腳架 201109133 622;腳架622係向後延伸以穿設入搶體5〇〇内,且固設 於閥套筒530,並受彈性體524所推抵。調整件63〇係 用以結合第一連接部611及第二連接部621,且控制第 一連接部611及第二連接部621之一接合距離,進而於 推抵件610未抵頂待釘物時,因推抵件61〇限止於限止件 410;而當轉動調整件630時,可使接合距離之改變造成腳 架622暨閥套筒530與汽缸521之相對位置產生改變,因 而得以調整進氣口 522之開口大小。藉此,調整件63〇可 於燃燒室510常態開啟時’控制閥套筒530遮蔽進氣口 522的程度,進而微調助燃氣體之濃度。 值得注意的是,抵靠部523只要與汽缸521固設在 一個相對位置即可’其作用在於提供彈性體524以推抵 腳架622,進而使連動裝置600未抵頂待釘物時,得以 復歸回原位,因而開啟進氣口 522。因此,抵靠部523 可由槍體500向内朝汽缸521沿伸所形成,亦可為汽缸 521本體向外凸伸所形成。 承上所述,連動裝置600可與爆炸式打釘搶4〇0本 身基於安全考量所具備的保險裝置相結合。此時,推抵 件610即同時成為保險裝置之保險片。 請繼續參考第3A圖與第3B圖,第3A圖係為第2 圖之連動裝置600的侧視圖,而第3B圖則為第2圖之 連動裝置600的立體圖。為方便解釋,圖中更繪示部分 搶體,亦即搶體500前端之槍管。 從圖中可知悉,調整件630可設計為一旋鈕631及 一穿設軸632之組合結構’穿設軸632係依序穿設第一 201109133 連接部611與第二連接部⑶,且旋鈕631係抵頂於第 -連接部611。藉此,旋鈕631可用以調整穿設軸㈣ 與第二連接部621之—穿設毅,進而控制第一連接部 611與第二連接部621之接合距離。換句話說,藉由旋 轉旋紐631,可以微調連動裝置_的整體長度,進而 控制助燃氣體之濃度。 ^想當然爾,旋鈕631與穿設軸632可為一體成型之 設計;而穿設轴632上可設有—公螺紋,且於第二連接 部621設置一相對應之母螺纹,以利兩者之互相結合。 值得-提的是,調整件㈣更包括至少—墊片 用^設於穿設軸632上,且位於第一連接部611盥^、 :ί接L621間。藉此,塾片可以加強第-連接部川 =-連接部62i間應力的傳遞,而避免穿設軸㈣上 的么螺紋在使用中崩牙。 請一併參考第5八圖、第5Β圖及第5C圖,盆係修 =第2圖之爆炸式打針搶400的進氣口 522開口大小受 控於連動裝置_之整體長度的操作示意圖。 設,、罙中,當穿設軸6 3 2與第二^連接部6 21的穿 :冰度較大時,腳架622連動閥套筒5 向前端方向滑動,進而與私训之間產套靖別 =亦即進氣口 522開口較大。第心 亦、車^與第—連接部621的穿設深度較小時,聊架622 因使闕套筒53〇略微向後端方向退縮, 522 間產生較小的進氣空間,亦即進氣口 開口較小。接下來,如第%圖所示,當推抵件610 201109133 ^頁待釘物時,閥套筒530即連帶向後退縮,因而封閉 A*缸520,以利燃燒室5丨〇進行點火擊發。最後,推 =610離開已被釘材貫穿後的工作件,則彈性體524便 =抵腳架622,以連動閥套筒53〇,使進氣口 522再度被 啟以及納助燃氣體。因此,一般而言,彈性體524 可採用一復位彈簧。 雖然本揭示内容已以實施方式揭露如上,然其並非 描Si本揭示内容,任何熟習此技藝者,在不脫離本 ^谷之精神和範#可作各種之更動與潤飾, 内容之保護範圍當視後附之中請專利範圍所 【圖式簡單說明】 之爆炸式打:實施方式之可調整燃燒室 室之二2式圖打==:實施方式之可_燒 :3A圖係為第2圖之連動裝置_的側視圖。 笛3B圖係為第2圖之連動裝置_的立體圖。 1係系為第2圖之調整件⑽的操作示意圖, ⑵相靠Ϊ 631使第—連接部611與第二連接部 盆俜^二圖:系為第2圖之調整件㈣的操作示意圖, ”係、、會不插作旋-631使第一連接部611與第二連接部 11 201109133 之操作示意圖,其繪示連動裝 ,進氣口開口較大。 之操作示意圖,其繪示連動裝 ,進氣口開口較小。 之操作示意圖,其繪示連動裝 ,進氣口開口關閉。 621相遠離。 第5A圖係為第2圖 置600之整體長度較小時 第5B圖係為第2圖 置600之整體長度較大時 第5C圖係為第2圖 置600 —端抵頂待釘物時 【主要元件符號說明】 100、400 :爆炸式打釘搶 210、521 :汽缸 220、530 :閥套筒 300、600 :連動裝置 500 :搶體 523 :抵靠部 610 :推抵件 620 :定位件 622 :腳架 631 :旋鈕 110、410 :限止件 200、510 :燃燒室 211、522 :進氣口 310 :擊釘深度調整結構 520 :汽缸結構 524 :彈性體 611 :第一連接部 621 :第二連接部 630 :調整件 632 :穿設軸 12201109133 VI. Description of the Invention: TECHNICAL FIELD The present disclosure relates to an explosive nail gun, and more particularly to an explosive nail gun for an adjustable combustion chamber. [Prior Art] A general nailing is used to drive a nail into a work piece. The working piece can be divided into a front working piece and a rear working piece, and the nail is inserted from the front working piece to the rear working piece, and the two are combined. Many of the building's planks are nailed to the wooden column frame using a nail gun. Nail guns are divided into three categories: electric, pneumatic and explosive. Among them, the explosive nailing system ignites the combustion gas and the self-combustion gas in one cylinder, thereby generating a strong impact force, so that the nail material penetrates the extremely hard working piece such as the cement wall. At present, both the electric nail gun and the pneumatic nail gun have a strong power Φ design and fine-tuning design. However, the explosive nailing can only make a rough adjustment to the nailing force; however, there is no other mechanism for fine-tuning the explosive nailing gun. For the related art of the coarse-tuning of the explosive nailing power, please refer to U.S. Patent No. US-7048146 and Japanese Patent Laid-Open No. 2006-102914, the disclosure of which is hereafter. In U.S. Patent No. 7,070,146, the disclosure of the utility model discloses the use of an electronic detection device for feeding back a kinetic energy demand message to an electronic dose valve, thereby changing the amount of gas mixture injected, thereby providing different kinetic energies for nails of different lengths. However, due to the harsh working environment of the explosive nailing, the body 201109133 will be subjected to strong vibration during operation, thus making the electronic device mounted thereon easy to damage, and the electronic dosage valve is costly, resulting in this technology. Explosive nailing and repair costs are not high. In the Japanese Patent Laid-Open No. 2006-102914, a nail depth adjusting member is disclosed which utilizes a change in the length of the insurance to change the nailing depth, thereby fine-tuning the nailing depth to achieve and fine-tune the power without being fine-tuned. The effect of similar power. However, the kinetic energy of this technology in the attack is absorbed by the body, which is easy to cause the life of the body to be shortened. SUMMARY OF THE INVENTION The technical aspect of the present disclosure is to provide an explosive type of nailing for a chamber, and thereby to make an explosive type, J-adjusted combustion system. T•Storing Surface Force Trimmer According to one aspect of the present disclosure, an explosive type of blasting chamber includes a blasting body and an adjustable combustion including a combustion chamber and a limit stop. Combustion chamber package: smart device. The valve sleeve is grabbed, and the limiting member is located in front of the body and includes a cylinder, an air inlet and an abutting portion; ^> the flying cylinder structure is wrapped in a relative position and has a front end of the abutting portion The second = and the cylinder fixing system are located on the outer wall of the cylinder for sucking in a combustion-assisted body, and the inlet port is sleeved outside the cylinder. Rotating the radish system: the rolling body, and the above-mentioned valve sleeve is abutted against the top-to-nail, and is connected to the combustion chamber. The linkage device includes a pusher member, a hooking port, and the sealing pusher member is used for pushing the front end against the object to be nailed, and the It piece and an adjusting member. When the nail is not reached, it is limited by the 201109133 limiter, and the back end of the pusher has a first connecting portion. The positioning member is partially inserted into the body, and includes a second connecting portion and a tripod; the stand is extended backward to be inserted into the body, and is fixed to the valve sleeve and is subjected to the elastic body. Push. The adjusting member is configured to combine the first connecting portion and the second connecting portion, and control the engaging distance of one of the first connecting portion and the second connecting portion, thereby limiting the engagement distance to the tripod due to the pushing member being limited to the limiting member When the urging valve sleeve does not abut the object to be nailed, the relative position with the cylinder changes, thereby adjusting the opening size of the air inlet. In this way, the whole adjustment can control the degree of the valve sleeve to block the air inlet when the combustion chamber is normally open, and finely adjust the concentration of the combustion gas. According to another aspect of the present disclosure, an explosive nailing of an adjustable combustion chamber is provided, including a combustion chamber, a linkage, and a limit stop. The combustion chamber is composed of a cylinder and a valve sleeve. The valve sleeve is sleeved outside the cylinder, and when the valve sleeve is actuated, one of the intake ports of the cylinder is closed; and when the valve sleeve is not actuated, the valve sleeve is opened. The gas port is used to inhale a gas. The rear end of the linkage device is fixed to the valve sleeve, and the front end is used to abut the object to be nailed. • When the front end pushes against the object to be nailed, the valve sleeve is linked to close the air inlet. The limiting member is used to limit the relative distance between the front end of the linking device and the cylinder when the linking device does not push against the object to be nailed. Wherein, the linkage device has a nail depth adjustment structure to adjust the overall length of the linkage device, thereby interlocking the valve sleeve to control the opening size of the air inlet, and to finely adjust the concentration of the combustion gas. Thereby, the foregoing technical aspect can utilize the linkage device to control the opening size of the air inlet to finely adjust the concentration of the combustion gas body, thereby finely adjusting the power of the explosive nailing. In addition, the limit member can be used to adjust the relative distance between the front end of the linkage and the cylinder. Therefore, the content of this disclosure can effectively fine-tune the gas concentration of 201109133, so that the explosive nailing can be robbed of the power fine-tuning mechanism. [Embodiment] Please refer to Fig. 1 and Fig. 1 is a schematic view showing the structure of an explosion type nailing of a whole combustion chamber. The first "spooning of the adjustable combustion chamber of the explosive type of nail grab 1 〇〇, a linkage device 300 and - limit stop · for the run type to define the direction of the nail material as the front end direction, the opposite direction of the nail material injection direction = the part in the direction of the front end is the rear end of each member in the direction of the second direction. The more combustion chamber 200 is composed of -, , and & __ two; ^ Λ 耻 筒 220 When the combustion chamber is actuated, the four sets of gas of the closed cylinder 210 are: and the combustion chamber 2GG is not made _, the shame intake gas assisting gas body, and the rear end of the dome Si SO0 system is fixed to the valve sleeve 220, When the front end is used for 220 / when the front end pushes against the object to be nailed, the interlocking sleeve does not push the U port 21. The limiting member 110 is used to interlock the front end of the linkage device 300 with the cylinder 21 of the linkage device 300. The device 3〇0 has a striking depth of a nail depth adjustment structure. Specifically, the nail depth adjustment adjusts the overall length of the linkage 3〇0, and then the sleeve is the same as 2〇 to control the opening size of the air inlet 211, and adjusts the concentration of the gas body by the micro 201109133. Therefore, in the present embodiment, the opening device 3 is used to control the opening size of the air inlet 211 to finely adjust the concentration of the combustion gas, thereby fine-tuning the power of the explosive nailing and the depth of the hit. efficacy. It is worth noting that, based on the safety requirements, the explosive nailing 100 should be provided with a safety device, and the safety device can be combined or linked to the linkage device 300. Please refer to FIG. 2, which is a schematic structural view of an explosive type nailing of an adjustable combustion chamber according to another embodiment of the present disclosure. In Fig. 2, the explosive nailing of the adjustable combustion chamber of the present embodiment 400 includes a gun body 5〇〇 and a linkage device 6〇〇. The body 500 includes a combustion chamber 51 and a limit member 41. The combustion to 510 includes a 7-flying structure 520 and a valve sleeve 530, and the limiting member 410 is located at the front end of the body. The cylinder structure 5 includes a cylinder 521, an air inlet 522 and an abutting portion 523. The abutting portion 523 is integrally formed with the cylinder 521, protrudes outward from the cylinder circumferential surface, and has an elasticity at the front end of the abutting portion 523. The air inlet 522 is located on the outer wall of the cylinder 521 for sucking a combustion gas; and the valve sleeve 530 is sleeved outside the cylinder 521. The linkage device 600 is disposed on the body 5 to interlock the valve sleeve 530 to close the air inlet 522 to seal the combustion chamber 510. The linkage device 600 includes a pushing member 61, a positioning member 620 and an adjusting member 630. The pushing member 61 is used for pushing the front end against the object to be nailed, and when the object to be nailed is not received, the restricted stopping member 41 is limited, and the rear end of the pushing member 610 has a first connecting portion 611. The positioning member 62 is partially inserted into the grab body 500, and includes a second connecting portion 621 and a tripod 201109133 622; the tripod 622 extends rearward to be inserted into the grab body 5〇〇, and is fixed The valve sleeve 530 is biased by the elastic body 524. The adjusting member 63 is configured to combine the first connecting portion 611 and the second connecting portion 621, and controls the engaging distance of one of the first connecting portion 611 and the second connecting portion 621, so that the pushing member 610 does not abut the object to be nailed. When the pushing member 61 is limited to the limiting member 410, when the adjusting member 630 is rotated, the change of the engaging distance causes the relative position of the stand 622 and the valve sleeve 530 to the cylinder 521 to be changed, thereby being adjusted. The opening size of the port 522. Thereby, the adjusting member 63 can control the degree to which the valve sleeve 530 shields the air inlet 522 when the combustion chamber 510 is normally opened, thereby finely adjusting the concentration of the combustion gas. It should be noted that the abutting portion 523 only needs to be fixed in a relative position with the cylinder 521. The function of the abutting portion 523 is to provide the elastic body 524 to push against the stand 622, so that the interlocking device 600 does not abut the object to be nailed. Returning to the home position, thus opening the air inlet 522. Therefore, the abutting portion 523 can be formed by the gun body 500 extending inwardly toward the cylinder 521, or can be formed by projecting the body of the cylinder 521 outward. As described above, the linkage device 600 can be combined with an explosive type of nailing to secure a safety device based on safety considerations. At this time, the pusher member 610 becomes a fuse for the safety device at the same time. 3A and 3B, FIG. 3A is a side view of the interlocking device 600 of FIG. 2, and FIG. 3B is a perspective view of the interlocking device 600 of FIG. For the convenience of explanation, the figure also shows part of the body grab, that is, the barrel of the front end of the body 500. As can be seen from the figure, the adjusting member 630 can be designed as a combination of a knob 631 and a threaded shaft 632. The wearing shaft 632 sequentially passes through the first 201109133 connecting portion 611 and the second connecting portion (3), and the knob 631 The top is connected to the first connecting portion 611. Thereby, the knob 631 can be used to adjust the penetration of the through shaft (4) and the second connecting portion 621, thereby controlling the joining distance between the first connecting portion 611 and the second connecting portion 621. In other words, by rotating the knob 631, the overall length of the linkage _ can be fine-tuned to control the concentration of the combustion-supporting gas. ^Of course, the knob 631 and the threaded shaft 632 can be integrally formed; the threaded shaft 632 can be provided with a male thread, and the second connecting portion 621 is provided with a corresponding female thread for the purpose of They are combined with each other. It is worth mentioning that the adjusting member (4) further comprises at least a spacer for being disposed on the threaded shaft 632 and located between the first connecting portion 611盥^, :ί and the L621. Thereby, the cymbal can strengthen the transmission of the stress between the first connecting portion and the connecting portion 62i, and avoid the thread on the shaft (4) from being broken in use. Please refer to Fig. 5, Fig. 5 and Fig. 5C together. The basin system repair = Fig. 2 of the explosion type needle injection 400 inlet 522 opening size is controlled by the overall length of the linkage device. In the middle, when the shaft 6 3 2 and the second connecting portion 6 21 are worn: when the ice is large, the tripod 622 moves the valve sleeve 5 to slide toward the front end, and then the private training is produced. The set of Jingbi = that is, the inlet 522 has a large opening. When the depth of penetration of the first center, the vehicle, and the first connecting portion 621 is small, the chat frame 622 is retracted slightly toward the rear end, and a small intake space is generated between the 522, that is, the intake air. The opening is small. Next, as shown in the %th figure, when the pusher 610 201109133 is to be nailed, the valve sleeve 530 is retracted backwards, thereby closing the A* cylinder 520 to facilitate the firing of the combustion chamber 5丨〇. Finally, push = 610 to leave the work piece after the nail has been penetrated, then the elastic body 524 = the standoff 622 to interlock the valve sleeve 53 〇, so that the air inlet 522 is again activated and the gas is assisted. Thus, in general, the elastomer 524 can employ a return spring. Although the present disclosure has been disclosed in the above embodiments, it is not intended to describe the present disclosure. Anyone skilled in the art can make various changes and refinements without departing from the spirit and scope of the present. In the attached section, please refer to the patent scope [Simplified description of the diagram] Explosive type: The adjustable mode of the combustion chamber of the embodiment can be adjusted. ==: The implementation mode can be _ burned: 3A is the second figure Side view of the linkage device_. The flute 3B is a perspective view of the interlocking device _ of Fig. 2. 1 is a schematic diagram of the operation of the adjusting member (10) of FIG. 2, and (2) the first connecting portion 611 and the second connecting portion are opposite to each other by Ϊ 631: a schematic diagram of the operation of the adjusting member (4) of FIG. The operation diagram of the first connecting portion 611 and the second connecting portion 11 201109133 is not shown as a rotation-631, which shows that the interlocking device has a large opening of the air inlet. The operation schematic diagram shows the interlocking device The air inlet opening is small. The operation diagram shows the interlocking device, and the air inlet opening is closed. The 621 phase is far away. The 5A picture is the second picture 600 when the overall length is small, the 5th picture is the first 2 When the overall length of the figure 600 is large, the 5C picture is the second picture set 600 - the end of the object to be nailed [the main component symbol description] 100, 400: explosive nailing 210, 521: cylinder 220, 530: valve sleeve 300, 600: linkage device 500: grab body 523: abutment portion 610: pusher member 620: positioning member 622: stand 631: knobs 110, 410: limit members 200, 510: combustion chamber 211, 522: intake port 310: nail depth adjustment structure 520: cylinder structure 524: elastic body 611: first connection portion 621: second Connecting portion 630: adjusting member 632: threading shaft 12