JPS5847713A - Conveying device for round steel - Google Patents

Abstract

PURPOSE:To prevent the occurrence of slip and impact of a round steel on a conveying surface, by a method wherein, in a subject device which conveys the round steels over a stationary grating through the rotary circular movement of a moving grating, and V- cavities are formed in the upper surface of the moving grating at equal pitches to those of sawtooth waveforms formed on the stationary grating. CONSTITUTION:Sawtooth waveform are formed at equal pitches on an upper surface of a stationary grating 1, and V-cavities are provided in an upper surface of a moving grating 2 at equal pitches to those of the sawtooth waveforms on the upper surface of the stationary grating 1. A conveyor 8, rotating in a reverse direction to a conveying direction of a round steel 6, is mounted in parallel to the stationary grating 1 and the moving grating 2 so that it is positioned at a higher level than that of the bottom of the upper surface of the stationary grating 1. Additionally, a roller 3a, supporting a round steel 6 on the stationary grating 1, and a roller 3, conveying the round steel 6 on a conveyor 6, are installed movably in the conveying direction of the round steel 6. This causes the round steels to be conveyed as they roll, and prevents the occurrence of slip, impact, and bending of the round steel when the round steels are conveyed, which results in enabling the smooth and reliable conveyance of the round steels.

Description

【発明の詳細な説明】 本発明は、製鉄所等において使用される丸棒あるいは管
等の丸鋼を横向きに移送する丸鋼移送装置に関するもの
である。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a round steel transfer device for laterally transferring round steel such as a round bar or tube used in a steelworks or the like.

従来の丸鋼移送装置においては、丸鋼の移送の際に丸鋼
と固定格子あるいは丸鋼と移動格子との間で丸鋼のすべ
りが発生したり、丸鋼が前記格子にぶつかったシする構
造であったために、格子が摩耗したシ、衝撃によシ傷あ
るいは騒音が発生して移送装置に悪影響を及ぼしまた丸
鋼自体にも傷がつき９曲がシ等の変形が発生する等の現
象を呈していた。さらに、丸鋼移送装置を冷却床として
使用する場合には、丸鋼が冷却床上で常に転動゛し続け
ていることがなかったので、丸鋼表面が全周で均等に冷
却されることがなく、丸鋼が曲がることがあった。　　
一 本発明は、このような従来の欠点を改良するために９固
定格子と移動装置をそれぞれ複数列備え。In conventional round steel transfer devices, when transferring the round steel, slipping may occur between the round steel and the fixed grid or between the round steel and the moving grid, or the round steel may collide with the grid. Due to the structure, the gratings were worn out, and the impact caused scratches and noise, which adversely affected the transfer device, and the round steel itself was also damaged, resulting in deformation of 9 songs. It was exhibiting a phenomenon. Furthermore, when using the round steel transfer device as a cooling bed, the round steel surface is not constantly rolling on the cooling bed, so the round steel surface can be cooled evenly around the entire circumference. There were times when the round steel was bent.
In order to overcome these conventional drawbacks, the present invention includes a plurality of rows of nine fixed grids and a plurality of moving devices.

移動格子の回転円運動により丸鋼を固定格子上で順次移
送する丸鋼移送装置において、固定格子上面に鋸歯状の
波形を等ピッチで形成し、移動格子上面にＶ形のくほみ
を固定格子上面の鋸歯状波形と等ピッチで形成するとと
もに、格定格子および移動格子と平行に、丸鋼の移送方
向と逆方向に回転するコンベアを固定格子上面の底部よ
シも上に設け、かつ、固定格子上の丸鋼を支持するロー
ラと、コンベア上の丸鋼を移送させるローラを丸鋼の移
送方向に移動自在に設けて、丸鋼を転動させながら移送
せしめる構成とすることにょシ、丸鋼移送の際の丸鋼の
すべり、衝撃の発生１曲赤シ等をなくして、移送装置あ
るいは丸鋼自体に悪影響を与えることなく、よシ円滑、
確実に丸鋼を移送しうる丸鋼移送装置を提供するもので
ある。In a round steel transfer device that sequentially transfers round steel on a fixed grid by rotating circular motion of a moving grid, sawtooth waveforms are formed at equal pitches on the top surface of the fixed grid, and V-shaped grooves are fixed on the top surface of the moving grid. A conveyor is formed at the same pitch as the sawtooth waveform on the top surface of the grid, and is also provided above the bottom of the top surface of the fixed grid, and rotates in parallel with the grating grating and the movable grid in the opposite direction to the conveyance direction of the round steel. , a roller that supports the round steel on the fixed grid and a roller that transfers the round steel on the conveyor are provided movably in the direction of transport of the round steel, and the round steel is transferred while rolling. It eliminates the slippage of the round steel and the occurrence of impact, and the smooth movement without any negative impact on the transfer device or the round steel itself.
To provide a round steel transfer device that can reliably transfer round steel.

次に図面に示した１実施例により、この発明をさらに詳
しく説明する。Next, the present invention will be explained in more detail with reference to an embodiment shown in the drawings.

第１図において、固定格子１の上面には鋸歯状の波形を
した丸鋼移送面が等ピッチで形成され。In FIG. 1, on the upper surface of a fixed grid 1, sawtooth wave-shaped round steel transfer surfaces are formed at equal pitches.

一方、移動格子２の上面にはＶ形のくほみが固定格子１
の上面の鋸歯状波形と等ピッチで形成されている。また
、固定格子１および移動格子２は平行状態で交互Ｃｃ数
列並べられ、丸鋼６を横向きに移送できるように配置さ
れている。移動格子２は。On the other hand, on the upper surface of the movable grid 2, a V-shaped corner is placed on the fixed grid 1.
It is formed at the same pitch as the sawtooth waveform on the top surface. Further, the fixed grid 1 and the movable grid 2 are arranged in parallel in several Cc rows alternately, and are arranged so that the round steel 6 can be transferred laterally. The moving grid 2 is.

移動格子“２の上面のＶ形のくぼみの底点りが１点Ａを
回転中心として２時計方向へ半径Ｒの円運動をするよう
になっておシ、その駆動機構は９図示していないが・　
クランク機構と減速機、電動機等からなる駆動部の組合
せで容易に構成できる。移動格子２の回転円運動により
、丸鋼６が移動格子２の上面のＶ形のくほみ部に保持さ
れた後、上方に持ち上げられ、固定格子１の次の上面に
移送。The bottom of the V-shaped recess on the top surface of the moving grating "2" makes a circular motion with a radius R in the clockwise direction about a point A as the center of rotation, and its driving mechanism is not shown in Figure 9. but·
It can be easily constructed by combining a drive unit consisting of a crank mechanism, a speed reducer, an electric motor, etc. Due to the rotating circular motion of the movable grid 2, the round bar 6 is held in the V-shaped recess on the top surface of the movable grid 2, and then lifted upward and transferred to the next top surface of the fixed grid 1.

載置される構造となっている。It has a structure in which it is placed.

一方、固定格子１の上面の鋸歯の谷底付近には。On the other hand, near the bottom of the sawtooth on the upper surface of the fixed grid 1.

チェンコンベア８が、固定格子１と移動格子２と。A chain conveyor 8 has a fixed grid 1 and a moving grid 2.

の間に交互に数本配置されており、チェンコンベア８の
上面のチェノ９の上端は、固定格子１の上面の鋸歯の谷
底から若干上方に位置しておりν　しかもチェノ９の回
転方向は丸鋼６の移送方向とは逆方向となっている。こ
れによりν固定格子１上の鋸歯状の傾斜面Ｆにそって回
転しながら下降。The upper ends of the chains 9 on the top surface of the chain conveyor 8 are located slightly above the bottom of the sawtooth valleys on the top surface of the fixed grid 1.ν Moreover, the rotation direction of the chains 9 is circular. The direction is opposite to the direction in which the steel 6 is transferred. As a result, it descends while rotating along the serrated slope F on the ν fixed grating 1.

移送されて来る丸鋼６をこのコンベア８の上端のチェノ
９で受け、その後、後述するローラ５の押出し作用でコ
ンベア８上に載置された丸鋼６を図において右方向、す
なわち移送方向に押すので。The transferred round steel 6 is received by the cheno 9 at the upper end of this conveyor 8, and then the round steel 6 placed on the conveyor 8 is pushed out by the pushing action of the rollers 5, which will be described later, in the right direction in the figure, that is, in the transfer direction. Because I press it.

丸鋼６に転勤を与えながら丸鋼６を移送させる。The round steel 6 is transferred while giving the round steel 6 a transfer.

更に嘗丸鋼６の支持を移送用のローラ機構１０が設けら
れてお９．このローラ機構１０ｉｉ腕ａおよび４ａから
成る一体のＶ形アーム５ｇ腕４，４ａの先端に回転自在
に軸承したローラＳ、ＳＥＬおよび支点Ｂならびに図示
していないアーム５の駆動装置から構成率れている。こ
のローラ機構１０Ｆｉ＋丸鋼６の移送方向には固定格子
１の各ピッチ毎に対応して、ピ・ツチの数と同数配置さ
れている。なお２紙面と直角な方向にも、数組設けられ
ている。Furthermore, a roller mechanism 10 for supporting and transferring the round steel 6 is provided.9. This roller mechanism 10ii is composed of an integrated V-shaped arm 5g consisting of arms a and 4a, a roller S rotatably supported at the tips of arms 4 and 4a, a fulcrum B, and a drive device for arm 5 (not shown). There is. In the transport direction of this roller mechanism 10Fi+round steel 6, the same number as the pitches are arranged corresponding to each pitch of the fixed grid 1. Note that several sets are also provided in the direction perpendicular to the paper surface.

ローラ機構１０のＶ形アーム５は支点Ｂを回転中心とし
て揺動し９図示していない電動機、減速機等からなる駆
動装置により強制駆動させる。なお。The V-shaped arm 5 of the roller mechanism 10 swings about a fulcrum B as the center of rotation, and is forcibly driven by a drive device (not shown) consisting of an electric motor, a speed reducer, etc. In addition.

Ｖ形アーム５は、同調リンク１１にょシ、全部が同調し
て駆動される。従ってＶ形アーム５の先端に図示してい
ない軸受によシ回転自在に軸承したローラ３，３ａも丸
鋼６の移送方向に揺動する。The V-shaped arm 5 and the tuning link 11 are all driven in synchronization. Accordingly, the rollers 3 and 3a rotatably supported by bearings (not shown) at the tip of the V-shaped arm 5 also swing in the direction in which the round steel 6 is transported.

Ｖ形アーム５の腕４ａの先端のローラ３ａは一丸鋼６が
固定格子１の移送面Ｆ上で自由にころがり落ちるのを防
止している。すなわち、腕４ａの駆動により、丸鋼６は
丸鋼６の斜め下方でローラ３ａと係合しつつ−ローラ６
ａにより支持されながら固定格子１の移送面Ｆ上で斜め
下方に導かれ。The roller 3a at the tip of the arm 4a of the V-shaped arm 5 prevents the round steel 6 from freely rolling down on the transfer surface F of the fixed grid 1. That is, by driving the arm 4a, the round bar 6 engages with the roller 3a diagonally below the bar 6, and -roller 6
a and guided diagonally downward on the transfer surface F of the fixed grid 1.

転動しながら移送される。なおローラ３ａは丸鋼６の転
動にともなって腕４ａの先で係合回転する。It is transferred while rolling. As the round steel 6 rolls, the roller 3a engages and rotates at the tip of the arm 4a.

一方、Ｖ形アーム５の腕４の先端のロー２３は。On the other hand, the row 23 at the tip of the arm 4 of the V-shaped arm 5 is.

丸鋼６が固定格子１の移送面Ｆ上を下降して、チェンコ
ンベア８のチェノ９に載置された後、チェノ９上で丸鋼
６をチェノ９の回転方向とは逆方向に移送させる。すな
わち、腕４の駆動により−チ゛エン９上の丸鋼６はロー
ラ３と係合してローラ６により移送されると共に、チェ
ノ９は丸鋼６の移送方向とは逆方向に回動されているた
め、丸鋼６はチェノ９上を転動しながら、移送される。After the round bar 6 descends on the transfer surface F of the fixed grid 1 and is placed on the chain conveyor 8, the round bar 6 is transferred on the chain 9 in a direction opposite to the rotational direction of the chain 9. . That is, by driving the arm 4, the round bar 6 on the chain 9 engages with the roller 3 and is transported by the roller 6, and the chain 9 is rotated in the opposite direction to the direction in which the round bar 6 is transported. The round steel 6 is transferred while rolling on the chino 9.

この時、ローラ３は丸鋼６と係合して回転する。At this time, the roller 3 engages with the round bar 6 and rotates.

次に９以上のように構成された丸鋼移送装置の作動を、
第１図から第８図に基づいて説明する。Next, the operation of the round steel transfer device configured as above 9.
This will be explained based on FIGS. 1 to 8.

第１図は、丸鋼６の移送軌跡を示しておシ、１点鎖線７
は丸鋼６の中心の移動軌跡である。図中えた位置ｔすな
わち新に次のサイクルが始まる位置でもあ、り？　　ａ
ｍとａは同一状態を表わしている。Figure 1 shows the transfer locus of the round bar 6, and the dotted chain line 7
is the locus of movement of the center of the round bar 6. Is it possible to use the position t in the diagram, that is, the position where the next cycle starts? a
m and a represent the same state.

以下のｂｌ、ｃ、も同様にそれぞれす、ｃと同一状態の
位置を表わす。Similarly, bl and c below represent positions in the same state as s and c, respectively.

第２図から第８図は、第１図における丸鋼６の各移動軌
跡における固定格子１＃移動格子２．チェーンコンベア
８．ローラ３，３ａの相対位置と作動状態を９丸鋼６の
移送順序に従って説明するものである。FIGS. 2 to 8 show the fixed grid 1 # moving grid 2 at each movement locus of the round bar 6 in FIG. 1. Chain conveyor8. The relative positions and operating states of the rollers 3 and 3a will be explained according to the order in which the nine round bars 6 are transferred.

第２図は丸鋼６の中心がａにある時、すなわち。Figure 2 shows when the center of the round bar 6 is at a, that is.

移送途中にある丸鋼６の図示した状態における１サイク
ルの移送が開始される状態を示している。This shows a state in which one cycle of transfer is started in the illustrated state of the round bar 6 that is in the middle of transfer.

丸鋼６は移動格子２のＶ形のくぼみ部に保持され。The round bar 6 is held in the V-shaped recess of the moving grid 2.

固定格子１の移送面Ｆに丸鋼６が接触して載置され、移
動格子２は丸鋼６から離れる直前の状態である。この時
、ローラ３ａが丸鋼６の°外周に接触し係合して、丸鋼
６が勝手に固定格子１の移送面Ｆ上をころがり落ちない
ように丸鋼６を受けとめている。この後、移動格子２が
すぐに下がり書丸鋼６から離れるとともにｔ　ローラ機
構１０のＶ形アーム５が時計方向へ揺動して丸鋼６を移
送面Ｆにそって、ローラ３ａと係合させながら移送させ
る。ここで、ローラ３ａの揺動速度は丸鋼６の移送面Ｆ
上で自由にころがり落ちる時の速度よりも小さくする。The round steel 6 is placed in contact with the transfer surface F of the fixed grid 1, and the movable grid 2 is in a state immediately before being separated from the round steel 6. At this time, the rollers 3a contact and engage with the outer periphery of the round steel 6 to receive the round steel 6 so that the round steel 6 does not roll down on the transfer surface F of the fixed grid 1 without permission. After this, the movable grid 2 immediately descends and separates from the round bar 6, and the V-shaped arm 5 of the roller mechanism 10 swings clockwise to move the bar 6 along the transfer surface F and engage the roller 3a. transport while Here, the swing speed of the roller 3a is the transfer surface F of the round steel 6.
The speed should be lower than the speed at which it would roll freely down.

これによシ移送面Ｆと丸鋼６の外周との間のころがり・
・摩擦がすベシ摩擦よりも常に小さくできるので、丸鋼
６は移送面Ｆ上で確実に転動し、移送面Ｆ上ですべりが
発生することはない。This prevents rolling between the transfer surface F and the outer circumference of the round bar 6.
- Since the friction can always be made smaller than the base friction, the round steel 6 reliably rolls on the transfer surface F and no slipping occurs on the transfer surface F.

このようにして、丸鋼６は転動して移動し、第３図の状
態になる。なお第３図は丸鋼６の中心がり第１図に゛お
ける軌跡のａとｂの中間にある状態を示している。この
時も勿論、ローラ３ａと丸鋼６の外周は保合を保ってい
る。In this way, the round bar 6 rolls and moves, resulting in the state shown in FIG. Note that FIG. 3 shows a state in which the center of the round bar 6 is located midway between the locus a and b in FIG. 1. At this time, of course, the outer periphery of the roller 3a and the round bar 6 are maintained in alignment.

第４図は丸鋼６が移動面Ｆ上で転勤を終えて。In Figure 4, round bar 6 has finished its transfer on moving plane F.

チェンコンベア８のチェ／９上に移載されて、丸鋼６の
中心がｂ点に来た時の状態を示している。This shows the state when the center of the round bar 6 reaches point b after being transferred onto the chain conveyor 8/9.

この後、ロー２３＆は丸鋼６の外周から離れて係合を解
除し、逆にロー２３が丸鋼６の外周に当接して、チェ／
９上で丸鋼６を押し始める。この時の状態を第５図に示
する。チェ７９の上端は丸鋼の移送方向とは逆方向、す
なわち左方向へ回転しているので丸鋼６はチェ７９によ
シ転動を与えられて、転動しなからチェ／９上を右方向
に移送される。なお、この装置上における丸鋼６・の保
持時間を長く保っておく必要がある場合は、チェ／９上
で丸鋼６を固定格子１と移動格子２の表面から離した状
態に保てる位置にロー２３を止めておき。After this, the row 23& separates from the outer periphery of the round steel 6 and releases the engagement, and conversely, the row 23 comes into contact with the outer periphery of the round steel 6 and the chain/row 23 &
Start pushing round bar 6 on top of 9. The state at this time is shown in FIG. Since the upper end of the chevron 79 is rotating in the opposite direction to the direction in which the round steel is transferred, that is, to the left, the round steel 6 is given a rolling motion by the chevron 79, and instead of rolling, it moves over the chevron/9. Moved to the right. If it is necessary to keep the round bar 6 on this device for a long time, move the bar 6 on the checker/9 to a position where it can be kept away from the surfaces of the fixed grid 1 and the movable grid 2. Stop Low 23.

丸鋼６をチェ／９上で一チェン９とロー２３の作用で回
転させ続けておぐ。ローラ３の作用によシ。The round steel 6 is kept rotating on the chain/9 by the action of the chain 9 and the row 23. Due to the action of roller 3.

前記したようにチェ／９上を移送されて来た丸鋼６はそ
の中心がＣの位置に到達する同時に、移動格子２が回転
して来て、Ｖ形のくほみ部で丸鋼を保持する。この状態
を第６図に示す。従って、従来のこの種の装置のように
ｔ丸鋼が固定格子１および移動格子２の波形の一部のＨ
部および０部に突き当象ることがないので、これによシ
、丸鋼６が固定格子１および移動格子２に衝撃力を与え
ることはなく、従ってそれに伴なう衝撃音、Ｈ部および
０部の摩耗、傷つき、或は丸鋼６．固定格子１および移
動格子２の変形を、防止することができる。移動格子２
のＶ形のくほみ部で保持された丸鋼６は！第７図に示し
たように、丸鋼６の中心が。As mentioned above, the center of the round steel 6 transferred on the check/9 reaches the position C, and at the same time, the moving grid 2 rotates and moves the round steel at the V-shaped recess. Hold. This state is shown in FIG. Therefore, unlike conventional devices of this type, the T round steel is used to form part of the waveforms of the fixed grid 1 and the movable grid 2.
As a result, the round steel 6 does not apply impact force to the fixed grid 1 and the movable grid 2, and therefore the accompanying impact noise, H part and 0 parts worn, scratched, or round steel 6. Deformation of the fixed grid 1 and the moving grid 2 can be prevented. moving grid 2
The round steel 6 held by the V-shaped corner is! As shown in Fig. 7, the center of the round bar 6 is.

引Ｊ 移動格子の回転半径Ｒと同一の半径Ｒで上方に持ち上げ
られて、ｄ点を通過して、固定格子１の次の移送面Ｆ上
に到達し、丸鋼の中心がａｌ、となって最初に説明した
第２図の状態になる。この状態を第８図に示す。この後
、移動格子１は丸鋼６から離れ、以下、前記と同様の作
動を繰シ返し丸鋼６の移送が完遂される。Pull J It is lifted upward with the same radius R as the rotation radius R of the moving grid, passes through point d, reaches the next transfer plane F of the fixed grid 1, and the center of the round steel becomes al. The state shown in FIG. 2, which was explained at the beginning, is reached. This state is shown in FIG. Thereafter, the moving grid 1 is separated from the round steel 6, and the same operation as described above is repeated to complete the transfer of the round steel 6.

なお、第１図におけるローラ５，３ａおよび移動格子２
の位置は第６図の状態のものを１例として記載した。Note that the rollers 5, 3a and the moving grid 2 in FIG.
The position shown in FIG. 6 is taken as an example.

以上の説明から明らかなように９本発明によ−れば、固
定格子１と移動°格子２をそれぞれ複数列備え、移動格
子２０回転円運動により、丸鋼６を固定格子１上で順次
移送する丸鋼移送装置においてν固定格子１上面忙鋸歯
状の波形を等ピッチで形成し、移動格子２の上面にＶ形
のくほみを固定格子１の上面の鋸歯状波形と等ピッチで
形成するとともに、固定格子１および移動格子２と平行
に！丸鋼６の移送方向と逆方向に回転するコンベア８を
固定格子１の上面の底部よりも上に設け、かつ。As is clear from the above description, according to the present invention, a plurality of rows of fixed gratings 1 and movable gratings 2 are provided, and the round bars 6 are sequentially transferred on the fixed grating 1 by the rotating circular motion of the movable gratings 20. In the round steel transfer device, ν fixed grating 1 upper surface sawtooth waveforms are formed at equal pitches, and movable grating 2 upper surface V-shaped grooves are formed at equal pitches than the sawtooth waveforms on the upper surface of fixed grating 1. At the same time, it is parallel to fixed grid 1 and moving grid 2! A conveyor 8 rotating in a direction opposite to the direction in which the round bars 6 are transported is provided above the bottom of the upper surface of the fixed grid 1.

固定格子１上の丸鋼６を支持するローラ３ａと。and a roller 3a that supports the round steel 6 on the fixed grid 1.

コンベア８上の丸′＃４６を移送させるローラ３を丸鋼
６の移送方向に移動自在に設けた構造としたので９次の
ような優れた効果を有する丸鋼移送装置ができる。Since the roller 3 for transporting the round steel #46 on the conveyor 8 is provided so as to be movable in the transport direction of the round steel 6, a round steel transporting device having the following excellent effects can be obtained.

（１）固定格子１の移送面Ｆ上で丸鋼６のすベシが発生
しないので、移送面Ｆの摩耗がなくなる。(1) Since the round steel 6 does not sag on the transfer surface F of the fixed grid 1, wear on the transfer surface F is eliminated.

（２）　　丸鋼６が固定格子１のＨ部および移動格子２
の０部に突き当たることがないので、その衝撃力により
各格子１，２に傷、その他の損傷を与えることはなく、
またうそれに伴なう衝撃音、各格子１ｔ２の摩耗、さら
には丸鋼６の変形の発生も防止できる。(2) The round bar 6 is the H part of the fixed grid 1 and the movable grid 2
Since it does not hit the 0 part of the grid, the impact force does not cause scratches or other damage to the grids 1 and 2.
Furthermore, the accompanying impact noise, wear of each grid 1t2, and deformation of the round steel 6 can also be prevented.

（８）冷却床としても充分に適用できる。すなわち、丸
鋼６が常に転動しているので２部分的にかたよって冷却
されることがなく、全周が均等に冷却されるので、丸鋼
６が曲がることはない。(8) It can be sufficiently applied as a cooling bed. That is, since the round steel 6 is always rolling, it is not cooled in two parts unevenly, and the entire circumference is evenly cooled, so the round steel 6 does not bend.

（４）　　以上から、丸鋼６を円滑・確実に移送させる
ことができるので）運転保守が容易となりｅ作業環境も
著しく向上する。(4) From the above, since the round steel 6 can be transferred smoothly and reliably, operation and maintenance become easier and the working environment is also significantly improved.

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

第１図は本発明の１実施例を示し、丸鋼の移送軌跡を示
す正面図、第２図〜第８図は作動順序を示す説明図であ
る。 １・・・固定格子、２・・・移動格子＋３１３ａ−・ロ
ーラｓ４＋４ａ・・・腕、５・・・Ｖ形アーム＃１０、
・・ローラ機構、６・・・丸鋼、７・・・丸鋼の中−心
移動軌跡、８・・・チェンコンベア、９・φ・　チェノ
、１１・・・同調リンク 特許出願人　宇部興産株式会社 １１１図 第４図 第５ｒＩＪ 第６図FIG. 1 shows one embodiment of the present invention, and is a front view showing the transfer locus of the round steel, and FIGS. 2 to 8 are explanatory diagrams showing the order of operation. 1... Fixed grid, 2... Moving grid +313a-, roller s4+4a... Arm, 5... V-shaped arm #10,
...Roller mechanism, 6... Round steel, 7... Center movement locus of round steel, 8... Chain conveyor, 9 φ Cheno, 11... Synchronized link patent applicant Ube Industries, Ltd. Company 111Figure 4Figure 5rIJFigure 6

Claims (1)

【特許請求の範囲】 固定格子と移動格子をそれぞれ複数列備え、移動格子の
回転円運動により丸鋼を固定格子上で順次移送する丸鋼
移送装置において、固定格子上面に鋸歯状の波形を等ピ
ッチで形成し、移動格子上面にＶ形のくほみを固定格子
上面の鋸歯状波形と等ピッチで形成するとともに、固定
格子および移動格子と平行に、丸鋼の移送方向と逆方向
に回転するコンベアを固定格子上面の底部よりも上に設
け、かつ、固定格子上の丸鋼を支持するローラと。 コンベア上の丸鋼を移送さ、せるローラを丸鋼の移送方
向に移動自在に設けた丸鋼移送装置。[Claims] In a round steel transfer device that includes a plurality of rows of fixed gratings and a plurality of moving gratings, and sequentially transfers round steel on the fixed gratings by rotating circular motion of the movable gratings, sawtooth waveforms are formed on the upper surface of the fixed gratings. V-shaped grooves are formed on the upper surface of the moving grating at the same pitch as the sawtooth waveforms on the upper surface of the fixed grating, and the rotating grid is parallel to the fixed grating and the movable grating in the opposite direction to the direction in which the round steel is transported. A conveyor is provided above the bottom of the upper surface of the fixed grid, and rollers supporting the round steel on the fixed grid. A round steel transfer device that transports the round steel on a conveyor and has rollers that are movable in the direction of transport of the round steel.