M436471 五、新型說明: 【新型所屬之技術領域】 本新型係有關於一種重量訓練機的配重裝置,尤指一種方便 調整配重的重量訓練機。 【先前技術】 、 按,所知的重量訓練機主要是讓使用者可以選擇依據自身能 •力所及的配重負載,以供使用者做上下的往復重量訓練,藉以達 籲到鍛鍊臂力、腿力等肌肉的運動健身功效。 據查,習知重量訓練機之配重結構的代表性專利如美國創作 專利第6551223號,美國創作專利第6974405號;美國創作專利 第7011609號;台灣新型第479525號;台灣新型第脱78415號; 以及台灣新型第M316740號等專利前案所示。該等專利前案的具 體架構皆係於基架設置一導軌’並沿著導軌可移動地設一滑座及 疊置的複數個配重塊,並於滑座固定一桿體且連接一施力組件, 售再於桿體設縱向排列的複數個穿孔,施力組件則可供使用者施力 以連動滑座’且每一配重塊設有相通的橫向孔及縱向孔,每一橫 向孔可移動地穿設一插銷,縱向孔則穿設桿體’當使用者將插銷 穿入穿孔時,配重塊與桿體則呈固定之連動狀態;反之,當用者將 插銷拔出而脫離穿孔時,配重塊則與桿體呈不固定狀態,亦即桿 體無法連動配重塊做上下的移動。 雖然該等專利前案可藉由上述之操作而達到選擇自身所需的 配重負載,以達到上下往復重量訓練的功效,惟,該等專利每一 M436471 配重塊並無第-旋轉件連動插銷之機能設置,且無上下移動之撥 動、’且件的&置’故使用者必須以手持插销的方式進行配重負载的 選擇,由於將插銷插入或拔出桿體之穿孔時,使用者必須施以較 大的力氣方能完細雜人或拔出的作動,因而造成操作不易與 費力的情事產生,萬-使用者因操作不當使插銷未能綠實插入至 穿孔的定倾度時,如此桿齡無法有效的連動配重塊,以致盈 法做上下往復的舉臂重量訓練,因而造成使用上的不便应極大的 •困擾。 另一方面,習知重量訓練機除需配置較重的配重塊(約5公斤 以上)外’還需配置較輕的輔助配重塊(約1公斤左右),以針對配 重塊做微增_整,讓使用者可以更精確地調整至所需的配重負 載。依據所知,重量麟顧配重微調機構是料複雜的,而且 在操作調整上極為不容易,其代表性專利如台灣新型第4簡 『重量訓練機之微娜重裝置』專利所示,其係於主架體之二導 桿頂端段⑦置二固定内環塊,微調配重塊可沿二導桿轴向昇降, 、、、疋位導件控向穿向於微調配重塊,使微調配重塊與固定内 環塊結合Μ,使麵_騎_,朗柯嫌微調配重 效果;或是將微調配重塊置於配重單元上,以產生微調配重效果。 該習用結_射以產生微調之配纽果,惟,使用者在微 觸作時,_卜手將微繼重塊往上提起至蚊内環塊的位 ^再以另-手握持起子工具以鎖緊定位導件,使微調配重塊與 疋内環塊固定;或是定位導件,使_配重塊藉由重力而 4 M436471 沿著導桿料纽”元上,a此,該料 僅較為複雜且難轉作,而且相當的㈣、=在作上不 操作上的不便触大#峨。 ❿造成使用 2鑑於料_練機職生之上述各項缺失,本創作人乃 麦依法具文辦峨。物纟她合法權益, 【新型内容】 本^之第-目的’在提供—種可簡便且自動調整重量訓練 機之配重貞荷_重㈣^達雜述目㈣狀技術手段,係包 括配重機構及調整機構。輕機構供使用者調整配重機構上之配 重塊的數4 ’讀需要織㈣的大小1重機構導執、滑座及 曼置的配重塊。該滑座固定有桿體,其承受施力組件之施力而沿 著導軌移動。桿體設有數個穿孔。每一配重塊上設有橫向孔及縱 向孔,每-橫向孔穿設-插銷。縱向孔貫穿桿體。調整機構包括 致動機構、移紐及複數倾轉件。致軸構驅_驗移動。 移動座上設有撥桿。每一配重塊樞接一旋轉件。每一旋轉件具有 連動部及受力部。當移動座沿著導軌移動時,撥桿撥動受力部而 驅使旋轉件於二角度之間轉動,致使插鎖穿入或脫離穿孔,進而 控制配重塊是否與桿體固定。 本新型第二目的’在提供一種具自動微調重量訓練機之配重 負荷的配重裝置。達成前述目的功效之技術手段,係包括二配重 機構及二調整機構。配重機構及調整機構的構造均如前述目的之 5 M436471 • 結構設計。二配重機構之滑座以一連接件連接。一配重機構之配 重塊的重量小於另一配重機構之配重塊的重量。故而可藉由重量. 較小的配重塊來做微調配重負荷,進一步增進使用的方便性。 【實施方式】 S青參看圖1至6所示,本新型達成前述第一目的之實施例, ' 係包括配重機構10及調整機構20。配重機構10設置於一基架3〇 上’其包括至少一導轨1卜導轨11可移動地設一滑座12及複數 鲁個依序疊置的配重塊I3。滑座^固定一桿體⑽,並連接一重量 訓練機50的一施力組件4〇β桿體12〇上設有縱向排列的複數個穿 孔12卜施力組件40供使用者施力,以連動滑座12沿著導軌u 移動,由於施力組件40為相當習知的技術,故不予贅述。且每一 配重塊13上設有相通的一橫向孔13〇及一縱向孔131,如圖4、 10所示。每一橫向孔13〇可移動地穿設一插銷Μ %縱向孔丨31由 桿體120貫穿。穿孔121與橫向孔130逐-相對。當插銷14受力 φ而穿入穿孔⑵時,配重塊13與桿體诩呈固定的連動狀態(即 鎖疋狀態)’配合參看圖6、8所示。反之,當插銷14受力而脫離 穿孔121時配重塊η與桿體12〇呈不固定狀態(即解除狀態), 配合參看圖6、7所示。 如圖1至6所示’調整機構20設置在基架30上,包括致動 機構21移動座22及複數個旋轉件。每一配重塊η穿轴咖 極:旋轉件23。旋轉件23 一端為連接插銷14的連動部咖, 另細為又力231。致動機構21具有導桿21〇及螺桿211。移動 6 M436471 f 22可移動地甴導桿貫穿,並與螺桿211螺合。螺桿211由 一馬達212驅動旋轉而帶動移動座22沿著導桿21{)、螺桿⑴及 導軌11之縱向移動。移動座22冑伸有對應於受力部如的 桿220。當移動座22朝導軌^ 一端移動時,撥桿22〇撥動 231,撥使旋轉件23自—第一角度旋轉至-第二角度,旋轉件23 致動使插銷14穿人穿孔121,g&重塊13與桿體12()呈固定狀態, 配合參看圖6、8所示。當移動座22朝導軌11另-端移動時,撥 桿220撥動受力部231,撥使旋轉件23自第二角度回轉至第一角 度’旋轉件23致動使插銷職離穿孔121,配重塊13與桿體12〇 呈不固定狀態,配合參看圖6、7所示。 如圖6至8所示,撥桿呦位於移動座22的-側,撥桿220 末端為凸弧尖端221»受力部231具有-與凸弧尖端221相對應 的凹槽232,凹槽232兩侧分別形成一第一凸緣233及一第二凸緣 234。連動部230為-螺旋形的導板235,其螺旋轴心與旋轉件23 的旋轉中心同軸心,且與橫向孔13〇 _向平行。插銷14周面上 設有-切槽140,切槽兩對壁分別形成—第—壁部141及一第 二壁部142。導板235嵌入切槽14〇。當移動座22鱗軌u 一端 移動,撥桿220撥動第-凸緣233,使旋轉件23自第一角度旋轉 至第二角度。導板235頂推第一壁部141而使插銷14穿入穿孔 121。當移動座22朝導軌U另一端移動,撥桿22()撥動第二凸緣 234,使旋轉件23自第二角度旋轉至第一角度,導板挪頂推第 二壁部142而使插鎖14脫離穿孔121。 7 ^ ^ν· M436471 如圖6至8所示,旋轉件23上設有一第一凹部236及一第二 凹部237。配重塊13上設有凹孔132。凹孔132依序埋設彈簧133 及珠體134。珠體134承受彈簧133之彈力而局部突露在配重塊 13之外。旋轉件23分別位於第一角度及第二角度時,珠體134 ❿ 分別嵌入第一凹部236及第二凹部237,藉以避免旋轉件23任意 旋轉。再者,旋轉件23上設有一圓弧導扎238。配重塊13上設有 導柱135。導权135穿於導孔238。旋轉件23分別位於第一角度 及第二角度時,導柱135分別位於導孔238兩末端,藉以限制旋 轉件23的旋轉角度範圍,避免導板235脫離切槽14〇。 如圖1至11所示。本新型達成前述第二目的之實施例,係包 括二配重機構1_3及二調整機構別餐每一調整機構誦& 調整對應之一配重機構10/1〇a的配重負荷。二配重機構10/10a 之滑座12之間以一連接件122連接而形成連動。再者,一配重機 構伽之配重塊13的重量小於另一配重機構H)之配重塊13的重 量。藉此喊有微舰重貞狀魏。舉 機構Π)的每,喝13的竭5対^重 編姆W細恤m 時,雜贼蚊触難输212 _ =控制:編的移動行程),使用者選擇 : =,-調整機们。的馬細便: 動座22下移至第二個丨。公斤配重塊 ::使: 桿220便推動旋轤株穴始立罝仃程中,撥 件3旋轉’旋轉件23便致使插銷14伸入而穿 入桿體120的空a 塊,即可做10H使得桿體120固定有二個5公斤的配重 重量訓練的㈣1的重量聲#伽者独11公斤做為 10的馬物便11公斤㈣’一調整機構 23旋轉,下方的位置,行程卜撥桿220便推動旋轉件 1?1 *>曰 23便致使插銷14伸入而穿入桿體120的穿孔 一 、、、’達12驅使螺桿211旋轉,致使移動座22下移至第 =u斤配重塊13下方的位置’練中,撥桿22〇便推動旋轉 旋轉,旋轉件23便致使插銷14伸入而穿入桿體120的穿孔 21使得祕120固定有一個(公斤的配重塊13,二個5公斤加 個1公斤總計為11公斤,如此即可做11公斤負荷的重量訓練, 如此即為微調的功能。 肆.結論 因此,藉由上述之結構設計,可歸納本新型確實具有下列幾 點優點: 1·配重機構與調整機構的設計,具有自動調整配重負荷功 能,提升使用之方便性及準確性,具有智慧型功能。 2.多組配重機構與調整機構搭配,各配重機構的配重塊之重 量不同’可在兩大重量的配重塊之間利角小重量配重塊做微調。 以上所述’僅為本新型之一可行實施例,並非用以限定本新 型之專利範圍,凡舉依據下列請求項所述之内容、特徵以及其精 料 *36471 神而為之其他變化的等效眘 内。本新型所具趙界定於請求項之:型之專利範固 且I實用极㈣止k 項之結構特徵,未見於同類物品, -,、t主 符合創作專利要件,差依法具文提出申 明謹續夠局依法核予專利, 【圖式簡單說明】 維護本申請人合法之權益。 :圓 本Γ型配重裝置應用於一種重量訓練機的外觀示意丨 圖2為相對圖1的另一角度示意圓。 圖3為本新錄起兩個大配魏的平时_。 圖4為本新録起兩個大配重塊的立體示意圖。 圖5為相對圖4的另-角度示意i ==拉起兩個大配重塊及一個小配重塊的平面示意圖 圖8為相對圖7的另一角度示意圖。 的體不忍圖 圖9為一配重機構搭配-調整機構的局部分解示意圖。 圖Μ為依據圖9之構件的組合示意圖。 圖11為相對圖9的動作示意圖。 ==配重機構搭配另一調整機構的局部 圓13為依據圖12之構件的組合示意圖。 圖14為相對圖12的動作示意圖。 【主要元件符號說明】 配重機構i〇/i〇a導軌u 滑座12 桿體120 穿孔⑵ 連接件122 M436471 配重塊13 凹孔132 導柱135 第一壁部141 致動機構21 馬達212 凸弧尖端221 •受力部231 第二凸緣234 第二凹部237 基架30 橫向孔130 縱向孔131 彈簧133 珠體134 插銷14 切槽140 第二壁部142 調整機構20/20a 導桿210 螺桿211 移動座22 撥桿220 旋轉件23 連動部230 凹槽232 第一凸緣233 導板235 第一凹部236 圓弧導孔238 軸239 施力組件40 重量訓練機50M436471 V. New description: [New technical field] The present invention relates to a weight training device for a weight training machine, and more particularly to a weight training machine for conveniently adjusting the weight. [Prior Art] According to the known weight training machine, the user can select the weight load according to his/her ability and force, so that the user can perform the upper and lower reciprocating weight training, thereby achieving the exercise arm strength. Exercise and fitness effects of muscles such as leg strength. According to the investigation, the representative patents of the weight structure of the weight training machine are US Patent No. 6551223, American Patent No. 6,974,405; American Patent No. 7011609; Taiwan New Type No. 479525; Taiwan New Type No. 78415 ; and Taiwan's new M316740 and other patents shown in the previous case. The specific structure of the patents is based on the fact that the base frame is provided with a guide rail' and a sliding seat and a plurality of overlapping weights are movably disposed along the guide rail, and a shaft is fixed on the sliding seat and connected to the rail. The force component is sold in a plurality of perforations arranged longitudinally of the rod body, and the force applying component is adapted for the user to apply force to interlock the sliding seat' and each weighting block is provided with a communicating transverse hole and a longitudinal hole, each transverse direction The hole is movably disposed with a pin, and the longitudinal hole is inserted through the rod body. When the user inserts the pin into the hole, the weight plate and the rod body are in a fixed interlocking state; otherwise, when the user pulls out the pin When the hole is removed from the perforation, the weight is not fixed to the rod body, that is, the rod body cannot move the weight block to move up and down. Although the patents can achieve the weighting load required for the up and down reciprocating weight training by the above operations, the M436471 counterweights do not have the first-rotating member linkage. The function of the pin is set, and there is no up and down movement, and the user must select the weight load by means of a hand-held pin. Since the pin is inserted or pulled out of the hole of the rod, The user must apply a large amount of force to complete the operation of the miscellaneous or pull out, thus causing the operation to be difficult and laborious. The user-incorrect operation of the plug is not inserted into the perforation of the perforation due to improper operation. At the time of the degree, such a rod age can not effectively link the weights, so that the weight method can be used for the weight training of the up and down reciprocating arms, which causes great inconvenience in use. On the other hand, the conventional weight training machine needs to be equipped with a heavier counterweight (about 5 kg or more), and a lighter auxiliary weight (about 1 kg) is needed to make a micro for the weight. Increased _, allowing the user to adjust to the required weight load more accurately. According to the knowledge, the weight adjustment mechanism is complicated, and it is not easy to adjust the operation. The representative patents are as shown in the patent of Taiwan’s new type 4 “weight training machine”. The second guide rod end section 7 of the main frame body is provided with two fixed inner ring blocks, and the fine adjustment weight block can be lifted and lowered along the axial direction of the two guide rods, and the clamp guides are guided to finely adjust the weights, so that The fine adjustment weight is combined with the fixed inner ring block to make the surface _ riding _, Langke suspects fine adjustment of the weight effect; or the fine adjustment weight is placed on the weight unit to produce a fine adjustment weight effect. The conventional knot is used to produce a fine-tuned match. However, when the user is in the micro-touch, the hand lifts the micro-heavy block up to the position of the mosquito ring and then holds the screwdriver in another hand. The tool locks the positioning guide to fix the fine adjustment weight to the inner ring block; or locates the guide so that the weight of the weight is 4 M436471 along the guide bar, a This material is only complicated and difficult to transfer, and it is quite inconvenient to touch (#), = inconvenience in the operation. #❿################################################################ Mai has a law-based essay. The material rights of her are legal, [new content] The first-purpose of the ^ is provided in a simple and automatic adjustment of the weight of the weight training machine _ heavy (four) ^ Da miscellaneous (four) The technical means includes a weighting mechanism and an adjustment mechanism. The light mechanism is for the user to adjust the number of weights on the weighting mechanism. 4 'Reading needs to weave (4) size 1 heavy body guide, sliding seat and Man's weight The slider is fixed with a rod body that is moved along the guide rail by the force applied by the force applying component. The rod body is provided with a plurality of perforations. Each of the weights is provided with a transverse hole and a longitudinal hole, and each of the transverse holes is provided with a pin. The longitudinal hole penetrates the rod body. The adjusting mechanism comprises an actuating mechanism, a shifting button and a plurality of tilting members. The moving seat is provided with a lever. Each weight is pivotally connected to a rotating member. Each rotating member has a linking portion and a force receiving portion. When the moving seat moves along the guide rail, the lever moves the force receiving portion. And driving the rotating member to rotate between two angles, so that the latch is inserted into or out of the perforation, thereby controlling whether the weight is fixed with the rod. The second object of the present invention is to provide a weight load with an automatic fine-tuning weight training machine. The weighting device, the technical means for achieving the above-mentioned purpose, includes a two-weighting mechanism and a second adjusting mechanism. The structure of the weighting mechanism and the adjusting mechanism are as described above. 5 M436471 • Structural design. Slide of the second weight mechanism Connected by a connecting member. The weight of the weight of one weight mechanism is smaller than the weight of the weight of the other weight mechanism. Therefore, the weight of the weight can be finely adjusted to further increase the weight load. Convenience of use [Embodiment] S Qing, as shown in Figs. 1 to 6, the embodiment of the present invention achieves the foregoing first object, 'comprising a weight mechanism 10 and an adjustment mechanism 20. The weight mechanism 10 is disposed on a base frame 3' The utility model comprises at least one guide rail 1 and a guide rail 11 movably provided with a sliding seat 12 and a plurality of weighted overlapping weights I3. The sliding seat ^ fixes a rod body (10) and is connected with a weight training machine 50. A force applying component 4〇β rod body 12 is provided with a plurality of longitudinally arranged plurality of perforations 12 for applying force to the user to move the sliding carriage 12 along the guide rail u, since the force applying component 40 is equivalent The conventional technique is not described here, and each of the weights 13 is provided with a transverse hole 13 相 and a longitudinal hole 131, as shown in Figs. 4 and 10. Each of the lateral holes 13 〇 is movably A pin Μ is inserted through the shank 120. The perforations 121 are opposite to the transverse holes 130. When the pin 14 is forced into the perforation (2) by the force φ, the weight 13 and the rod body are in a fixed interlocking state (i.e., the lock state). Referring to Figs. On the other hand, when the latch 14 is forced to disengage from the through hole 121, the weight η and the rod 12 〇 are in an unfixed state (i.e., the released state), as shown in Figs. The adjustment mechanism 20 is disposed on the base frame 30 as shown in Figures 1 through 6, and includes an actuating mechanism 21 for moving the seat 22 and a plurality of rotating members. Each weight η wears a shaft: a rotating member 23. One end of the rotating member 23 is an interlocking portion for connecting the plug 14 and is further thinned by a force 231. The actuating mechanism 21 has a guide rod 21 and a screw 211. Movement 6 M436471 f 22 movably pushes the guide rod through and is screwed into the screw 211. The screw 211 is driven to rotate by a motor 212 to move the movable seat 22 in the longitudinal direction of the guide rod 21), the screw (1) and the guide rail 11. The movable base 22 has a rod 220 corresponding to a force receiving portion. When the moving seat 22 moves toward the end of the guide rail ^, the lever 22 is toggled 231 to rotate the rotating member 23 from the first angle to the second angle, and the rotating member 23 is actuated to cause the latch 14 to pass through the through hole 121, g& The weight 13 and the rod 12 () are in a fixed state, as shown in Figs. When the moving seat 22 moves toward the other end of the guide rail 11, the lever 220 plucks the force receiving portion 231, and the rotating member 23 is rotated from the second angle to the first angle. The rotating member 23 is actuated to cause the latch to be separated from the through hole 121. The weight 13 and the rod 12 are in an unfixed state, as shown in Figs. As shown in FIGS. 6 to 8, the lever 呦 is located on the side of the movable seat 22, and the end of the lever 220 is a convex arc tip 221. The force receiving portion 231 has a groove 232 corresponding to the convex arc tip 221, and the groove 232 A first flange 233 and a second flange 234 are formed on both sides. The interlocking portion 230 is a spiral-shaped guide plate 235 whose concentric axis is concentric with the center of rotation of the rotary member 23 and parallel to the transverse hole 13〇_. The circumferential surface of the pin 14 is provided with a slit 140, and the two pairs of walls of the slit form a first wall portion 141 and a second wall portion 142, respectively. The guide plate 235 is embedded in the slot 14〇. When the end of the scale rail u of the moving base 22 moves, the lever 220 dials the first flange 233 to rotate the rotary member 23 from the first angle to the second angle. The guide plate 235 pushes up the first wall portion 141 to allow the plug 14 to penetrate the through hole 121. When the moving seat 22 moves toward the other end of the guide rail U, the lever 22 () pushes the second flange 234 to rotate the rotating member 23 from the second angle to the first angle, and the guide plate pushes the second wall portion 142 to make the second wall portion 142 The latch 14 is disengaged from the perforation 121. 7 ^ ^ν· M436471 As shown in Figs. 6 to 8, the rotary member 23 is provided with a first recess 236 and a second recess 237. The weight 13 is provided with a recess 132. The recess 132 is sequentially embedded with the spring 133 and the bead 134. The bead body 134 is exposed to the elastic force of the spring 133 and is partially exposed outside the weight 13 . When the rotating members 23 are respectively located at the first angle and the second angle, the beads 134 are respectively embedded in the first recess 236 and the second recess 237 to prevent the rotating member 23 from being arbitrarily rotated. Furthermore, a rotating wire guide 238 is disposed on the rotating member 23. A guide post 135 is provided on the weight 13 . The guiding member 135 is inserted through the guiding hole 238. When the rotating members 23 are respectively located at the first angle and the second angle, the guide posts 135 are respectively located at the two ends of the guiding holes 238, thereby limiting the range of the rotation angle of the rotating member 23, and preventing the guide plate 235 from coming off the slot 14〇. As shown in Figures 1 to 11. The embodiment of the present invention which achieves the second object described above includes a second weighting mechanism 1_3 and a second adjusting mechanism. Each adjusting mechanism 诵& adjusts the weighting load of one of the weighting mechanisms 10/1〇a. The sliders 12 of the two weight mechanisms 10/10a are connected by a connecting member 122 to form a linkage. Furthermore, the weight of the counterweight 13 of a counterweight mechanism is smaller than the weight of the counterweight 13 of the other counterweight mechanism H). In this way, there is a micro-ship re-wei. Each of the institutions Π), drink 13 exhausted 5 対 ^ re-edited M W fine shirt m, miscellaneous thief mosquito touch difficult to lose 212 _ = control: edited travel itinerary, user choice: =, - adjust the machine . The horse is fine: The moving seat 22 moves down to the second one. The weight of the kilogram:: makes: the rod 220 pushes the rotation of the planting hole, and the rotating member 23 rotates the rotating member 23 to cause the pin 14 to extend into the empty a block of the rod 120. Do 10H so that the rod body 120 is fixed with two 5 kg weight weight training (four) 1 weight sound #加者独11 kg as 10 horses will be 11 kg (four) 'one adjustment mechanism 23 rotation, lower position, stroke The lever 220 pushes the rotating member 1?1*>曰23 to cause the pin 14 to extend into the hole 120 of the rod 120, and the '12' drives the screw 211 to rotate, causing the moving seat 22 to move down to the first The position below the weighting block 13 is 'training', the lever 22 is pushed to rotate, and the rotating member 23 causes the pin 14 to extend into the hole 21 of the rod 120 so that the secret 120 is fixed (kg) Counterweight 13, two 5 kg plus 1 kg total 11 kg, so you can do weight training of 11 kg load, so that is the function of fine adjustment. 结论. Conclusion, therefore, through the above structural design, can be summarized The new model does have the following advantages: 1. The design of the weight mechanism and the adjustment mechanism has an automatic Adjust the weight load function, improve the convenience and accuracy of use, and have intelligent functions. 2. The multi-group weight mechanism is matched with the adjustment mechanism, and the weights of the weights of each weight mechanism are different 'can be used in two weights The fine-weighted weights are fine-tuned between the weights. The above description is only one of the possible embodiments of the present invention, and is not intended to limit the scope of the patents of the present invention. The characteristics and the equivalent of the fine material *36471 other changes of God. The new type of Zhao defined in the request: the patent of the type of patent and I practical pole (four) stop k structural features, not found in the same category Articles, -, and t are in conformity with the requirements for the creation of patents, and the documents are legally stipulated according to law, and the patents are approved according to law. [Simplified description of the drawings] The legal rights of the applicant are safeguarded. The appearance of a weight training machine is shown in Fig. 2 as a schematic circle with respect to another angle of Fig. 1. Fig. 3 is a new recording of two large matches with Wei. Figure 4 shows two new weights for the new recording. A schematic view of the block. Figure 5 is the phase FIG. 8 is a schematic plan view of another angle of FIG. 7 with respect to FIG. 4 and FIG. 8 is a schematic diagram of another angle with respect to FIG. 7. Schematic diagram of the assembly of the mechanism-adjustment mechanism. Figure 为 is a schematic diagram of the combination of the components according to Figure 9. Figure 11 is a schematic diagram of the operation relative to Figure 9. == The weight mechanism is combined with the local circle 13 of another adjustment mechanism. Fig. 14 is a schematic view of the operation of Fig. 12. Fig. 14 is a schematic view of the operation of Fig. 12. [Main component symbol description] Counterweight mechanism i〇/i〇a Guide u Slider 12 Rod 120 Perforation (2) Connector 122 M436471 Counterweight 13 Concave Hole 132 Guide post 135 First wall portion 141 Actuation mechanism 21 Motor 212 convex arc tip 221 • Forced portion 231 Second flange 234 Second recess 237 Base frame 30 Transverse hole 130 Longitudinal hole 131 Spring 133 Bead 134 Pin 14 Groove 140 second wall portion 142 adjustment mechanism 20/20a guide rod 210 screw 211 moving seat 22 lever 220 rotating member 23 linkage portion 230 groove 232 first flange 233 guide plate 235 first recess portion 236 arc guide hole 238 Shaft 239 force assembly 40 weight training machine 50