JPS59230916A - Automatic conveyer for tile under laying sideways and rising - Google Patents

Abstract

PURPOSE:To improve the stability of bundled tiles by providing placing portions positioned in every 90 deg. phase, stacking tiles by a rotary disc intermittently rotated at every 90 deg., laying and raising unbundled tiles to be transferred to a feed-out portion and clamping the tiles with arm rods to prevent slippage of tiles at the time of bundling. CONSTITUTION:When flat stacked tiles W reach a receiving portion 23, a driven roller 6 is driven by operation of a cylinder 29 and a timing belt to transfer the stacked tiles onto the driven roller 6. Subsequently, a rotary disc 4 is intermittently turned at an angle of 90 deg. through a clutch table 12, a clutch concave portion 11' and a clutch convex portion 13. Thus, a placing portion 5 for placing the tiles W thereon is turned and shifted to a feed-out portion 34. The stacked tiles W are put in the laying sideways and rising state, with the stacking flat side portion thereof set vertically. Accordingly, the slippage of the tiles at the time of flat stacking can be corrected and the tiles are arranged properly to be fed out to the next process. Thus, the slippage of stacked tiles can be removed to stabilize the bundle of tiles.

Description

【発明の詳細な説明】 本発明は積電ねられた未結束の瓦を横倒起立状態に姿勢
変換せしめることにより安定的に整列せしめて結束梱包
工程へ搬送せしめる様゛にした夏目１１ｔＩＩ横倒起立
搬送装はに関するものである従宗瓦の自動結束ツインの
工程で所定枚数の瓦を移動微速結束せしめるには、瓦１
枚を置いた時の安定性の良い而を下にして積上げる積重
ね方式を採用していた。然しなから瓦の上に次の瓦を槓
重ねた場合１枚目の瓦の安定性が艮〈ても瓦の形状によ
りては２枚目以上の瓦が下の瓦に対し安定してｇ瀘なら
ず、結束を含む前後工程において瓦がずれることが多く
、後に結束された瓦を積上げて荷造りをする除重なりの
ずれた突出部分に荷重や衝撃が集中的に加わるため藺品
を損傷したり、又輸送中の荷の安定性を悪くしたりする
４ト桓々の欠点を有していた。DETAILED DESCRIPTION OF THE INVENTION The present invention is a Natsume 11tII flat roof tiles system which changes the posture of stacked and unbound tiles to a sideways standing position so that they can be stably aligned and transported to the binding and packaging process. In order to move and bind a predetermined number of tiles at very low speed in the process of automatic bundling of secondary tiles, the upright conveyance device is used for
A stacking method was used in which the sheets were stacked with the sides facing down, which provided good stability when placed. However, when the next tile is stacked on top of the tile, the stability of the first tile becomes unstable.However, depending on the shape of the tile, the second or more tiles may not be stable relative to the tile below. The tiles often shift during the pre- and post-processes including bundling, and the load and shock are concentrated on the shifted protruding parts of the stacking and stacking process, which damages the tiles. This method has four drawbacks, such as lowering the stability of the cargo during transportation.

不発明はかかる欠点に鑑み、積重ねられた未結束の瓦が
搬送されるベルトコンベアの終端に９０度毎に位札位置
した載置部を存すると共に９０度毎に間欠ｌｌＢ１転制
御される回転盤を連設せしめ、ベルトコンベアに連設す
る回転盤の受入部より９０度回転位相位置した送出部に
コロコンを連設し、送出部の側方にはコロコンに並行し
て搬送方向に往復移動制御されると共に横倒起立された
送出部上の瓦の前後面を挾持する一組の腕杆を挾脱自在
に装着せしめた瓦目勧横倒起立搬送装置を提供して上記
欠点を解消せんとしたものにして、以下本発明の一冥施
例を図面に基づいて説明すると、 （１）は横倒起立搬送装置の本体であり、ベース（２）
に支持せしめた主軸（８）に回転盤（４）を回動自在に
支持せしめ、該回転盤（４）には９０度毎に位相する位
置を区割して載置部（５）　１５）’・・・を設け、各
載置部Ｌ５１　（５ど・０Ｉ／ｃは搬送すべき瓦□の底
面を支持する波動ローラー（６）＜６Ｙ　拳・・及び側
面を支持する補助ローラー（７）　（７）’　＃−・を
回動自在に取付け、又各ａｍローラー（６）＜６Ｙ・■
の上方には瓦（Ｗ辺上面を案内規制せしめる瓦規制ベル
ト（８）を回転盤（４）に取付けたデー！Ｊ　−（９）
（９）’間に巻装せしめている。In view of these drawbacks, the present invention provides a rotary plate which has a placing section with place plates positioned at every 90 degrees at the end of a belt conveyor on which stacked and unbound roof tiles are conveyed, and which is controlled to rotate intermittently every 90 degrees. A roller controller is connected to a delivery section that is 90 degrees rotationally positioned from the receiving section of a rotary disk connected to the belt conveyor, and a roller controller is installed on the side of the delivery section to control reciprocating movement in the conveying direction in parallel with the roller controller. It is an object of the present invention to solve the above-mentioned drawbacks by providing a horizontally inverted tile conveying device in which a pair of arm rods are removably attached to clamp the front and rear surfaces of tiles on a delivery section that is erected laterally. Hereinafter, one embodiment of the present invention will be explained based on the drawings. (1) is the main body of the sideways upright conveyance device;
A rotary disk (4) is rotatably supported on a main shaft (8) supported by a main shaft (8), and the rotary disk (4) has a mounting portion (5) divided into positions phased every 90 degrees.15) '... are provided, and each loading section L51 (5.0I/c is a wave roller (6) <6Y that supports the bottom surface of the tile □ to be conveyed; a fist... and an auxiliary roller (7) that supports the side surface (7)'#-・ is attached rotatably, and each am roller (6) <6Y・■
Above the tile (a tile regulating belt (8) that guides and regulates the upper surface of the W side is attached to the rotary disk (4)!J-(9)
(9) 'It is wrapped in between.

頭は回転盤（４）の回転駆動部であり、回転盤（４）の
側面の同一円周上の９０度毎に位相する位置にクラッチ
凹部（６）（６）′・−・を固着し、主軸（８）の端部
にはクラッチ台四を回動自在に取付けると共に、該クラ
ッチ台Ｏシ上に前記クラッチ四部Ｑ１Ｗｅ１１−に対応
して嵌合するクラッチ凸部Ｑ呻をシリンダー０→を介し
て出入自在に装着せしめ、又ベース〈２）に基端部を枢
支せしめたシリンダー（９）のロッド鵠）をクラッチ台
（鴇に枢着せしめ、シリンダーμｓ）の進退動作により
クラッチ合図を９０度往復角運動せしめる様に成してい
る。又（ロ）は回転盤（４）のロックｍ構部であり、ベ
ース（２）の下部に１ｍ１転盤（４）の端部を挾持する
１対の爪片０Ｒ）０１’を有するギヤーα１１を噛合せ
しめて取付け、ベース（２）に基部を枢支せしめたシリ
ンダー（イ）のロッド（２１１を一方のギヤーは鎮に枢
着せしめ、シリンダー−の進退動作により爪片Ｑ８）ば
を開閉制御せしめる様に成している。The head is the rotational drive part of the rotary disk (4), and the clutch recesses (6) (6)' are fixed at positions on the same circumference of the side surface of the rotary disk (4) that are phased every 90 degrees. A clutch base 4 is rotatably attached to the end of the main shaft (8), and a clutch protrusion Q that fits into the clutch base 4 corresponding to the clutch 4 parts Q1We11- is attached to the cylinder 0→ on the clutch base Oshi. The rod of the cylinder (9), whose proximal end is pivotally supported on the base (2), is pivotally mounted on the clutch stand (the cylinder μs), and the clutch signal is generated by the forward and backward movement of the cylinder μs. It is configured to allow 90 degree reciprocating angular movement. (b) is the lock m structure of the rotary disc (4), and the gear α11 has a pair of claw pieces 0R)01' that clamps the end of the 1 m1 rotary disc (4) at the lower part of the base (2). The rod (211) of the cylinder (A), whose base is pivotally supported on the base (2), is pivotally connected to the shaft of the cylinder (2), and the opening and closing of the claw piece Q8 is controlled by the forward and backward movement of the cylinder. It's done in a way that forces you to do so.

（４）は瓦（Ｗ）の受入機構部であり、載置部（５）（
６ど・拳・の波動ローラーＬ６）　（６Ｙ・・・が下面
水平位置にある区割を受入部閘と成し、該受入部伜）に
は積重ねられた所定枚数の瓦Ｃ局が搬送されて来るベル
トコンベア例の終端を連設せしめ、該ベルトコンベア例
の上面と受入部μｓ）の？＆動ローラー（６）１６）’
−・・の上面間に渉りてタイミングベルト（財）を配置
せしめると共に、該タイミングベルトに）を巻装支持せ
しめるプーリー■げをベース（２）の側端部上面に枢支
せしめた支軸釧の両端部にアームＣＩＢＩ　Ｃ！に５Ｙ
を介して取付け、又支軸＠には基部をベース（２）に枢
支せしめたシリンダー−）のロッド□）を操作杆１８１
）を介して枢着せしめ、シリンダー間の進退動作により
支軸（ロ）を介してタイミングベルト＠）をベルトコン
ベア例（！：　岐１１ＥＩＩ　口＝　９−　ｔａ）＋６
’ｌ’　ａ・・間に着１ｉ１１操作せしめて波動ローラ
ー（ａ）（６１’−・・をベルトコンベア例に連動制御
せしめるベルトクラッチ８４構−を構成せしめている。(4) is the receiving mechanism section for the tile (W), and the placing section (5) (
The wave roller L6) (6Y... is in a horizontal position on the lower surface forms a receiving section, and a predetermined number of stacked tiles C is conveyed to the receiving section 2). The terminal end of the belt conveyor example is connected to the upper surface of the belt conveyor example and the receiving part μs). &Moving roller (6)16)'
- A support shaft on which a timing belt (property) is disposed across the upper surfaces of the base (2), and a pulley bar for winding and supporting the timing belt (2) is pivotally supported on the upper surface of the side end of the base (2). Arm CIBI C on both ends of the chime! 5Y
The rod □) of the cylinder whose base is pivotally supported on the base (2) is connected to the operating rod 181.
), and the timing belt @) is attached via the support shaft (b) by the forward and backward movements between the cylinders.
'l'a... A belt clutch 84 structure is configured to operate the interlock 1i11 and control the wave rollers (a) (61') in conjunction with an example of a belt conveyor.

−）は送出機８１部であり、受入部＠）より９０ＦＩＪ
回転位相した位置を送出部（２）と戊し、該送出部−に
は横倒起立せしめた瓦（Ｗ）を次工程へ搬送せしめるコ
ロコンに）を連設せしめ、又送出５（２）の何方からコ
ロコン擲）に並行してベース（２）上に取付けたスライ
ドシャフトに）にスライド台値）を移動自在に装着せし
め、該スライド台口には送出部（６）上に位置する瓦（
ｆｆｉの前後面を挾持せしめる一組の腕杆■（＆９′を
回動自在に取付は、該腕杆（判１イの基端部には支点を
結ぶ線に対し相反方向に突出する連結金具％１％）’を
突設せしめると共に。-) is 81 parts of the sending machine, and 90 FIJ from the receiving part @)
The rotationally phased position is referred to as a delivery part (2), and a roller controller for transporting the tile (W) that has been turned upside down and upright to the next process is connected to the delivery part. A slide platform (2) is movably attached to a slide shaft (2) mounted on the base (2) in parallel with the roller control roller (2), and a tile (3) located on the delivery portion (6) is attached to the opening of the slide platform (2).
A pair of arm rods that hold the front and rear surfaces of the ffi (&9') are rotatably attached to the base end of the arm rod (size 1). %1%)' is protruded.

該連結金具■）ｄ）どをスライド台値）上に装着せしめ
たシリンダー間のロッドＶ＋ｉ＋に取付けた腕駆動スラ
イド−に連結杆鯛４を介して連結せしめ、シリンダー間
の進退動作により腕杆■（イを相反方向に９０度開閉操
作して挾脱制倒せしめる様に成して贋る。The connecting metal fitting ■) d) is connected to the arm drive slide attached to the rod V+i+ between the cylinders mounted on the slide base via the connecting rod 4, and the arm rod is moved by the forward and backward movement between the cylinders. (The counterfeit is made by opening and closing 90 degrees in opposite directions so as to make it collapse.)

又スライド台頭）にはベース（２）にｇＰｆ＃せしめた
シリンダー掴をプラケット（８）を介して連結せしめ、
このシリンダー間の作用によりスライド台四を所定ピッ
チ瓦（Ｗ）の送り方向へ移動制御せしめる様に成し、又
スライド台（資）には送出部−の対向位置に設けた一組
の腕杆■（８８ｒとシリンダー間より成る挟持機構−）
と同様の挾持機構イイ・・・をスライド台値）の移動ピ
ッチ毎に複数装備せしめている。In addition, a cylinder grip made of gPf# is connected to the base (2) via a placket (8) to the slide stand.
The action between the cylinders controls the movement of the slide table 4 in the feeding direction of tiles (W) at a predetermined pitch. ■(Pinching mechanism consisting of 88r and cylinder)
A plurality of clamping mechanisms similar to the above are equipped for each movement pitch (slide base value).

尚図中−Ｊｍｌはコロコン（イ））上を搬送される瓦（
Ｗ）の両側を案内支持せしめる案内ローラー、案内ベル
トである。In addition, in the figure - Jml is a tile (
These are guide rollers and guide belts that guide and support both sides of W).

次に本発明に係る夏目動横倒起立鐵送′Ｆ装置の作用に
ついて説明すると、前工程で所定枚数毎に平積み状態で
積重ねられた未結束の瓦（Ｗ事ベルトコンベア例上に沿
りて本体（１）の受入部−）に向って搬送されて来ると
、シリンダーに））の前進動作によりタイミングベルト
畑が９０度前方へ反転してベルトコンベア例と被動ロー
ラー（６）ｔｅｌ’争・・間に圧接され、ベルトコンベ
ア例の動力が′ｇＬ動ローラー＜６）（ａＹ−・ａにタ
イミングベルト＠）ヲ介して伝達されるのでベルトコン
ベアｍ上の瓦（Ｗ獄受入部例に位置する載置部（５）の
被動ローラー　（６）（ａ？・・・上に移動し、定位置
に至りた後シリンダー−１を後退動作せしめてタイミン
グベルトに）を待機位置に復帰反転せしめ、ベルシトコ
ンベア四の動力＠連作用を解除すると共にタイミングベ
ルト（至）を回転盤（４）の回転軌道外に位置せしめる
。Next, to explain the operation of the Natsume moving sideways upright iron conveyor'F device according to the present invention, the unbound tiles stacked in a predetermined number in a flat manner in the previous process (for example, on a belt conveyor) When the timing belt is conveyed toward the receiving part -) of the main body (1), the timing belt field is reversed 90 degrees forward by the forward movement of the cylinder)), causing a conflict between the belt conveyor and the driven roller (6). The power of the belt conveyor example is transmitted through the ``gL moving roller < 6) (aY-・a is the timing belt @), so the tiles on the belt conveyor m (W metal receiving part example) The driven roller (6) (a?...moves upwards and reaches the normal position, then moves the cylinder-1 backward to the timing belt) of the placed mounting section (5) and returns it to the standby position and reverses it. , the power @coupling action of the belt conveyor 4 is released, and the timing belt (to) is positioned outside the rotation orbit of the rotary disk (4).

続いて回転盤（４）のクラッチ台（１シに装着されたシ
リンダーα劫が後退してクラッチ凹部（ロ）とクラッチ
凸部０匂との嵌合が解除され、次にクラッチ合図に連結
したシリンダー０５）が前進してクラッチ台（１２１を
９０度回転せしめてクラッチ凹部ａｔに対向せしめると
共に、シリンダー（４）を前進せしめてクラッチ四部α
η′にクラッチ凸部１３句を嵌合せしめ、続いてロック
機構部（１７）のシリンダー（イ）を前進せしめて回転
盤（４）に対する爪片（（８）（瞭の挾持固定状態を解
除し、シリンダー（Ｉ５）を後退せしめることによりク
ラッチ台（１２＋、クラッチ四部（９）′、クラッチ凸
部０８）を介して回転盤（４）は入方向に９０度間欠回
転する。Next, the cylinder α installed on the clutch stand (1) of the rotary disk (4) moves back, and the engagement between the clutch concave part (B) and the clutch convex part 0 is released, and then the clutch is connected to the signal signal. Cylinder 05) advances to rotate the clutch base (121 90 degrees so that it faces the clutch recess at), and at the same time, the cylinder (4) advances to rotate the clutch 4 part α.
Fit the clutch convex part 13 into η', then move the cylinder (a) of the locking mechanism part (17) forward to release the gripping state of the claw piece (8) on the rotary disk (4). However, by retracting the cylinder (I5), the rotary disk (4) is intermittently rotated by 90 degrees in the input direction via the clutch base (12+, clutch four parts (9)', and clutch convex part 08).

回転盤（４）のＬ［！Ｉ伝に伴り瓦（Ｗ助Ｉ載置された
載置部（６）は受入部俤）から送出部幹１（叫へ回転移
動して瓦（Ｗ）は平槓の積重ね状態から側面を上下に向
けた横倒起立状態に姿勢変換され、この時べ〃トコンベ
ア例上を搬送されて来る過程で横ずれした瓦（Ｗ）は自
重により横倒起立状態で整列される次に送出部・棚に対
向してスライド台頭）上に装着された挾持１１４１Ｍの
シリンダー閣が前進して開放状態にある一組の腕杆部）
（イを９０度反転せしめて送出部−において補助ローラ
ー（１）（γど・・・上に載置された瓦（Ｗ）の前後面
を挾持して前後のずれを矯正し、続いてシリンダー−四
が前進動作することによりスライド台頭）が瓦（Ｗ）の
搬送方向に所定ヒツチ移動し、２：れに伴す腕杆■崎に
挾持された瓦（ＷＵコロコン（泌）上に搬送され、又コ
ロコン■）上に訃いて先に搬送された瓦（Ｗ）はスライ
ド台頭）上に所定ピッチ毎に装着された他の挾持ｓ　ｍ
　ｏｔ１１′イー・・にエリ同様に順次搬送され％１ピ
ッチ搬送された後シリンダー−が後退して腕杆１６４１
　ｄは開放回転すると共に、シリンダー１４１カ後退し
てスライド台位は所定位置に復帰し、かかる間に受入部
停）に位置する載置部（６ど上には次の瓦（Ｗ）ｄＥＪ
ｉｉ入され、以後同様の動作が反復されることによりべ
μトコンベア例上に沿って積重ねられた状態で搬送され
て来る瓦（Ｗ）ｄ順次横倒起立状態に姿勢変換さｒＬ、
τ整列され、かかる状態で順次コロコン（イ））上に送
出されて次工程である結束工程へ搬送されるのである。Turntable (4) L[! Along with the I transfer, the tile (W) rotates from the loading section (6) on which the W support I is placed to the receiving section (receiving section 俤) to the sending section 1 (shout), and the tile (W) moves from the stacked state of the flat tile to the side. The tiles (W), which have shifted sideways during the process of being conveyed on the bed conveyor, are aligned in the upright position due to their own weight. A pair of arm rods in which the cylinder rack of the clamp 1141M mounted on the sliding stand (opposed to the slide) moves forward and is in the open state)
(Flip A by 90 degrees and use the auxiliary roller (1) (γ) at the delivery section - to correct the front and back misalignment by pinching the front and back surfaces of the tile (W) placed on it, and then move the cylinder - By the forward movement of 4, the slide stand) moves a predetermined distance in the conveying direction of the tile (W), and as a result, the tile (2) is conveyed onto the tile (WU roller) held by the arm lever (W). , and the roof tile (W) that was conveyed first after falling on top of the roller holder (W) is a slide stand) with other clamps attached at predetermined pitches.
ot11' E... was transported sequentially in the same manner as Eri, and after being transported by %1 pitch, the cylinder retreated and the arm rod 1641
As d rotates open, the cylinder 141 moves back and the slide platform returns to the predetermined position, and during this time the next tile (W) dEJ is placed on the receiving section (6).
By repeating the same operation, the roof tiles (W) d, which are being conveyed in a stacked state along the roof conveyor, are sequentially transformed into a sideways upright state.
They are aligned by τ, and in this state they are sent out one after another onto the roller controller (a) and transported to the next process, the bundling process.

要するに本発明は、槓貞ねられた未結束の瓦（ｗ）Ｂｔ
搬送されるべ〃トコンベアー）の終端に９０度頭に位相
位置した載置部（５）　（５）’・・−を有すると共に
９０度毎に間欠回転制御される回転盤（４）を連設せし
めたので、ベルトコンベア例より手積の積重ね状態で搬
送されて来ることにより横ずれした不揃いの瓦（Ｗ）を
載置部Ｌ５１　（６ど＠＠＠上で９０度回転して横倒起
立状態に姿勢変換せしめることにより、瓦（Ｗ）のずれ
易い方向が上下方向になるため不揃の瓦（Ｗ）を無理な
力を加えることな（自重で自然に整列せしめることが出
来、又ベルトコンベアψ０に□連設する回転盤（４）の
受入部隣）より９０度［ａ１転位相位置した送出部（至
））にコロコン−）を連設し、送出部−の側方にはコロ
コンφ）に並行して搬送方向に往復移動制御されると共
に横倒起立された送出部−上の瓦（Ｗ）の前後面を挾持
する一組の腕杆■崎を挾脱自在に装着せしめたので、送
出部−上に横倒起立載１ｄされた瓦（ｗ）の前後面を揃
えて瓦（Ｗ）の菫なり具合を美しく−纒めにし、その状
態にて後続の結束工浬へ順次搬送せしめることが出来、
よりて従来の様に搬送過径＜おける噴ずれに伴い生じる
結束後の不揃をなくして眞造時成Ａは輸送時の製品の負
傷や積荷の不安定さを解消出来ると共疋、結束荷造工程
も簡略化することが出来る等その実用的効果甚だ大なる
ものである。In short, the present invention is based on the construction of an untied roof tile (w) Bt.
At the end of the conveyor (the conveyor belt being conveyed), there is a mounting part (5) (5)'...- which is positioned at a 90-degree head position, and a rotary plate (4) whose rotation is controlled intermittently every 90 degrees is connected. As a result, the uneven tiles (W) that have been shifted sideways due to being conveyed in a hand-stacked state from the belt conveyor example are rotated 90 degrees on the loading section L51 (6. By changing the posture of the roof tile (W), the direction in which the tile (W) is likely to shift becomes the vertical direction. A roller controller (adjacent to the receiving section) of the rotary disk (4) connected to the conveyor ψ0 is connected to the sending section (to) which is located at a1 rotational phase), and a roller controller is installed on the side of the sending section. A pair of arm rods that clamp the front and rear surfaces of the upper tile (W) are removably attached to the delivery section, which is controlled to reciprocate in the conveyance direction in parallel with φ) and is erected horizontally. Therefore, the front and back surfaces of the tiles (W) placed horizontally and vertically on the delivery section are aligned to form a beautiful violet shape, and in this state, proceed to the subsequent binding work. It is possible to transport
Therefore, by eliminating the unevenness after bundling that occurs due to jet misalignment in the conveyance radius, Shinzo Jisei A is said to be able to eliminate damage to products and instability of cargo during transportation. Its practical effects are enormous, such as the ability to simplify the packing process.

【図面の簡単な説明】[Brief explanation of drawings]

図は不発明の一実施例を示すものにして、第１図は本発
明に係る夏目動横倒起立搬送装置の正面図、第２図は同
上平面図、第３図はべｖトクラ１チ機構の側面図である
。 （４）回伝盤　　　（５）（６ど拳・・　域覧圃部　　
ゆｉｆ入部（３）べＭトコンベア　聞送出部　代）コロ
コン肉・瀬′梶杆 以　　　上 出願人　有限会社都濃窟業所The drawings show one embodiment of the invention, and Fig. 1 is a front view of the Natsume moving sideways upright conveyance device according to the present invention, Fig. 2 is a plan view of the same, and Fig. 3 is a one-piece vertical lift conveyor. FIG. 3 is a side view of the mechanism. (4) Kaidenban (5) (6-doken... Area-Ranba)
Yuif entry (3) Veet M conveyor delivery department) Corocon meat/Se'kaji rod and above Applicant Tsunokutsugyo Co., Ltd.

Claims (1)

【特許請求の範囲】[Claims] 積重ねられた未結束の瓦が搬送されるベルトコンベアの
終端に９０度毎に位相位置した載置部を有すると共に９
０度毎に間欠回転制ａされる回１蔽盤を連設せしめ、べ
Ｍトコンベアに連設する回転盤の受入部より９０度凹転
位相位置した送出部にコロコンを連設し、送出部の側ガ
に面を挾持する一組の腕杆を挾説自在に装着せしめたこ
とを特徴とする夏目励横倒起立搬送装置At the end of the belt conveyor on which the stacked unbound roof tiles are conveyed, there is a loading section positioned at a phase angle of 90 degrees.
A rotation board that is intermittently rotated every 0 degrees is installed in series, and a roller controller is installed in a row at a delivery part that is located at a concave rotation phase of 90 degrees from the receiving part of the rotary board that is connected to the conveyor. Natsumeki's side-inverted and upright conveyance device is characterized in that a pair of arm rods for holding the surface can be freely attached to the side levers of the device.