JP2014237537A - Conveyor device for transfer between conveyors - Google Patents

Conveyor device for transfer between conveyors Download PDF

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JP2014237537A
JP2014237537A JP2013122001A JP2013122001A JP2014237537A JP 2014237537 A JP2014237537 A JP 2014237537A JP 2013122001 A JP2013122001 A JP 2013122001A JP 2013122001 A JP2013122001 A JP 2013122001A JP 2014237537 A JP2014237537 A JP 2014237537A
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belt receiving
end side
receiving portion
shafts
side belt
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JP6274550B2 (en
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誠 丹波
Makoto Tamba
誠 丹波
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ARIMA BELT KOGYO CO Ltd
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ARIMA BELT KOGYO CO Ltd
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Abstract

PROBLEM TO BE SOLVED: To provide a conveyor device for transfer between conveyors which is suitable for transferring an article being conveyed by a conveyor to another conveyor, is relatively simple, can be easily maintained and has a space-saving effect.SOLUTION: A downstream end side belt receiving part 21 and an upstream end side belt receiving part 11 are respectively composed of up and down two stages of horizontal inclination shafts 12, 13, 22, 23 and up and down two stages of parallel shafts 14, 15, 24, 25. The horizontal inclination shafts are respectively arranged while taking an angle with respect to the direction orthogonal to a conveyance direction and the parallel shafts are respectively arranged in a parallel state with respect to the conveyance direction on the outside position of a conveyance surface. A belt of an outward path transfers to a return path through the upper stage horizontal inclination shaft 22, the parallel shafts 24, 25 and the lower stage horizontal shaft 23 of the downstream end side belt receiving part 21, and a belt of a return path returns to the outward path through the lower stage horizontal inclination shaft 13, the lower stage parallel shaft 15, the upper stage parallel shaft 14 and the upper stage horizontal inclination shaft 12 of the upstream end side belt receiving part 11.

Description

本発明は、コンベア間移載用コンベア装置に関するものであり、より詳細には、あるコンベアにより搬送されてきた物品を、それとは別のコンベアに受け渡すためにその2つのコンベア間に配設されるコンベア間移載用コンベア装置に関するものである。   The present invention relates to a conveyor device for transfer between conveyors. More specifically, the present invention is provided between two conveyors for transferring an article conveyed by a certain conveyor to another conveyor. The present invention relates to a conveyor device for transfer between conveyors.

一般に、ある方向に向けて搬送されてきた物品を受け取り、それを搬送しつつその搬送ルートを変更するために、カーブコンベアが用いられる。カーブコンベアは、平面扇形状をなす無端カーブベルトを循環駆動する特殊形態のものであるが、外周側と内周側の進行速度が異なるためにベルトが内方向に引っ張られるという現象が起こりやすく、そのための対策が必要となり、その分コストが嵩む等の問題がある(特開2006−347704号公報、特開2007−106595号公報等)。   In general, a curve conveyor is used to receive an article conveyed in a certain direction and change the conveyance route while conveying the article. The curve conveyor is a special form that circulates and drives an endless curved belt that has a flat fan shape, but the phenomenon that the belt is pulled inward easily because the traveling speed on the outer peripheral side and the inner peripheral side is different, For this purpose, countermeasures are required, and there is a problem that costs increase accordingly (Japanese Patent Laid-Open Nos. 2006-347704, 2007-106595, etc.).

このカーブコンベアの場合、搬送方向を単に直角方向に変更するためであればそれ程問題はないかもしれないが、例えば、Aコンベアを搬送中の物品を、Aコンベアから距離を置いて並走するBコンベアに移すような場合は、少なくともカーブコンベアが2つ必要となる。また、AコンベアとBコンベアとが離れている場合は、更に2つのカーブコンベア間にストレートコンベアを介在させる必要があり、その分コストが嵩むだけでなく、より大きなスペースが必要となる。   In the case of this curved conveyor, there may be no problem as long as the conveyance direction is simply changed to a right-angle direction. For example, an article that is being conveyed by the A conveyor is moved in parallel at a distance from the A conveyor. When moving to a conveyor, at least two curve conveyors are required. Further, when the A conveyor and the B conveyor are separated from each other, it is necessary to interpose a straight conveyor between the two curve conveyors, which not only increases the cost, but also requires a larger space.

特開2006−347704号公報JP 2006-347704 A 特開2007−106595号公報JP 2007-106595 A

本発明は、上記従来技術における問題点に鑑みてなされたもので、あるコンベアで搬送中の物品を、それとは別のコンベアに乗り移らせる用途に用いるのに好適な、比較的シンプルでメンテナンスが容易であって、省スペース効果があるコンベア間移載用コンベア装置を提供することを課題とする。   The present invention has been made in view of the above problems in the prior art, and is relatively simple and suitable for use in applications in which an article being conveyed by a certain conveyor is transferred to another conveyor. It is an object to provide a conveyor device for transfer between conveyors that is easy and has a space-saving effect.

上記課題を解決するための請求項1に係る発明は、搬送面を区画する下流端側ベルト受け部と上流端側ベルト受け部とがそれぞれ、上下二段の水平傾斜軸と上下二段の平行軸とで構成され、前記下流端側ベルト受け部の上下水平傾斜軸と前記上流端側ベルト受け部の上下水平傾斜軸はそれぞれ、前記搬送面の搬送方向に直交する方向に対して角度を持たせて配設され、前記上下二段の平行軸はそれぞれ、前記搬送面の外側位置において前記搬送面の搬送方向と平行状態に配置され、往路のベルトは、前記下流端側ベルト受け部の上段水平傾斜軸を経ることによって前記搬送面域外に出され、前記上下二段の平行軸を経て前記搬送面域内に戻された後、前記下流端側ベルト受け部の下段水平傾斜軸を経ることによって前記往路の下側の復路を形成し、前記復路のベルトは、前記上流端側ベルト受け部の下段水平傾斜軸を経ることによって前記搬送面域外に出され、前記上下二段の平行軸を経て前記搬送面域内に戻された後、前記上流端側ベルト受け部の上段水平傾斜軸を経ることによって前記往路を形成することを特徴とするコンベア間移載用コンベア装置である。   In the invention according to claim 1 for solving the above-mentioned problem, the downstream end side belt receiving portion and the upstream end side belt receiving portion that divide the conveying surface are respectively arranged in two upper and lower horizontal inclined shafts and two upper and lower parallel steps. A vertical horizontal inclination axis of the downstream end belt receiving portion and an upper horizontal inclination axis of the upstream end belt receiving portion each have an angle with respect to a direction perpendicular to the conveying direction of the conveying surface. The two upper and lower parallel shafts are arranged in parallel with the transport direction of the transport surface at positions outside the transport surface, and the forward belt is an upper stage of the downstream end side belt receiving portion. After passing through the horizontal inclined axis, it goes out of the conveying surface area, returns to the conveying surface area through the two upper and lower parallel axes, and then passes through the lower horizontal inclined axis of the downstream end side belt receiving portion. Form the return path below the outbound path And the belt on the return path passes through the lower horizontal inclined axis of the upstream end side belt receiving portion and then comes out of the conveying surface area, and then returns to the conveying surface area through the two upper and lower parallel axes. The transfer device is an inter-conveyor transfer conveyor device, wherein the forward path is formed by passing through an upper horizontal inclined axis of the upstream end side belt receiving portion.

一実施形態においては、前記下流端側ベルト受け部の上下二段の水平傾斜軸と前記上流端側ベルト受け部の上下二段の水平傾斜軸は、それぞれ枢動可能にされてその傾斜角度の変更が可能にされる。また、一実施形態においては、前記下流端側ベルト受け部の上下二段の平行軸と前記上流端側ベルト受け部の上下二段の平行軸は、それぞれ枢動可能にされてその傾斜角度の変更が可能にされる。   In one embodiment, the two upper and lower horizontal inclined shafts of the downstream end side belt receiving portion and the two upper and lower horizontal inclined shafts of the upstream end side belt receiving portion are respectively pivotable so as to have an inclination angle. Changes are made possible. In one embodiment, the upper and lower two-stage parallel shafts of the downstream end side belt receiving portion and the upper and lower two-stage parallel axes of the upstream end side belt receiving portion are respectively pivotable so as to have an inclination angle. Changes are made possible.

また、一実施形態においては、 前記下流端側ベルト受け部の上下二段の水平傾斜軸の間隔は、前記上流端側ベルト受け部の上下二段の水平傾斜軸の間隔よりも広くされ、前記下流端側ベルト受け部の上下二段の水平傾斜軸及び前記上流端側ベルト受け部の上下二段の水平傾斜軸は、回転することのない断面円形の樹脂材で構成される。   In one embodiment, the interval between the two upper and lower horizontal inclination shafts of the downstream end belt receiving portion is wider than the interval between the upper and lower two horizontal inclination shafts of the upstream end belt receiving portion, The two upper and lower horizontal inclination shafts of the downstream end side belt receiving portion and the two upper and lower horizontal inclination shafts of the upstream end side belt receiving portion are made of a resin material having a circular cross section that does not rotate.

本発明は上述したとおりであって、比較的シンプルな構成であり、並行する、あるいは、異なる方向に向く2つのコンベア間に配置することにより、当該2つのコンベア間における搬送物の受け渡しをスムーズに行うことが可能で、スペースに限りがある工場等において用いるのに好適なる効果がある。また、種々のコンベア間に配置して利用することが可能で、特に、請求項2に係る発明においては、前後に配置されるコンベアの搬送方向等に応じて、上下二段の水平傾斜軸の傾斜角度を変更し得る効果がある。   The present invention is as described above, and has a relatively simple configuration. By arranging the two conveyors in parallel or in different directions, it is possible to smoothly deliver a conveyed product between the two conveyors. This can be performed and has an effect suitable for use in a factory where space is limited. Further, it can be used by being arranged between various conveyors. In particular, in the invention according to claim 2, the two horizontal inclined shafts of the upper and lower horizontal inclined shafts can be used depending on the conveying direction of the conveyors arranged at the front and rear. There is an effect that the inclination angle can be changed.

本発明に係るコンベア間移載用コンベア装置の正面図である。It is a front view of the conveyor apparatus for transfer between conveyors which concerns on this invention. 本発明に係るコンベア間移載用コンベア装置の平面図である。It is a top view of the conveyor apparatus for transfer between conveyors which concerns on this invention. 本発明に係るコンベア間移載用コンベア装置の要部斜視図である。It is a principal part perspective view of the conveyor apparatus for transfer between conveyors which concerns on this invention. 図2におけるA視図である。It is A view in FIG. 図2におけるB視図である。FIG. 3 is a B view in FIG. 2. 本発明に係るコンベア間移載用コンベア装置の使用例を示す簡略図である。It is a schematic diagram which shows the usage example of the conveyor apparatus for transfer between conveyors which concerns on this invention.

本発明を実施するための形態について、添付図面を参照しつつ詳細に説明する。図1は、本発明に係るコンベア間移載用コンベア装置の全体構成を示す正面図、図2はその平面図であり、該装置は、架台フレーム1の上部に対設された側枠2の上流側に配設されて搬送面の上流端を画する上流端側ベルト受け部11と、側枠2の下流側に配設されて搬送面の下流端を画する下流端側ベルト受け部21とを備える。   Embodiments for carrying out the present invention will be described in detail with reference to the accompanying drawings. FIG. 1 is a front view showing the overall configuration of the inter-conveyor transfer conveyor device according to the present invention, and FIG. 2 is a plan view thereof. The device includes a side frame 2 provided on the upper part of the gantry frame 1. An upstream end belt receiving portion 11 disposed on the upstream side and defining the upstream end of the conveying surface, and a downstream end belt receiving portion 21 disposed on the downstream side of the side frame 2 and defining the downstream end of the conveying surface. With.

上流端側ベルト受け部11は、搬送方向に直交する方向に対して角度を持たせて配設される上下二段の水平傾斜軸12、13と、搬送面から外れた位置において搬送方向と平行状態に配置される上下二段の平行軸14、15とから成り、下流端側ベルト受け部21は、搬送面の搬送方向に直交する方向に対して角度を持たせて配設される上下二段の水平傾斜軸22、23と、搬送面から外れた位置において搬送方向と平行状態に配置される上下二段の平行軸24、25とから成る。   The upstream end side belt receiving portion 11 has two upper and lower horizontal inclined shafts 12 and 13 disposed at an angle with respect to a direction orthogonal to the conveying direction, and is parallel to the conveying direction at a position off the conveying surface. The downstream end side belt receiving portion 21 is arranged at an angle with respect to a direction perpendicular to the conveying direction of the conveying surface. It consists of two horizontal inclined axes 22 and 23 and two upper and lower parallel axes 24 and 25 arranged in parallel with the conveying direction at a position off the conveying surface.

通例、各平行軸14、15、24、25はフリーローラーとされるが、各水平傾斜軸12、13、22、23には、軸に沿ってベルトが横滑りすることを防止するために、回転することのない断面円形の樹脂材が用いられる。例えば、水平傾斜軸12、13、22、23は、樹脂製パイプ材の全長に亘ってスリットを設け、金属製板材22a、23aの一半部をそのスリットから押し込んだ構成とすることができる(図3参照)。あるいは、金属製板材22a、23aの一側辺に円形棒材を連設し、上記スリットを設けた樹脂製パイプ材を横方向から被装した構成とすることもできる。   Typically, each parallel axis 14, 15, 24, 25 is a free roller, but each horizontal tilt axis 12, 13, 22, 23 is rotated to prevent the belt from skidding along the axis. A resin material having a circular cross section that does not occur is used. For example, the horizontal inclined shafts 12, 13, 22, and 23 may be configured such that a slit is provided over the entire length of the resin pipe material, and one half of the metal plate materials 22a and 23a is pushed from the slit (FIG. 3). Alternatively, a configuration may be adopted in which a circular bar is continuously provided on one side of the metal plates 22a and 23a, and the resin pipe material provided with the slits is covered from the lateral direction.

好ましい実施形態においては、水平傾斜軸12、13と水平傾斜軸22、23は、それぞれ一端部が枢支されて枢動可能にされ、以て、その傾斜角度の変更が可能な構成とされる。   In a preferred embodiment, the horizontal tilt shafts 12 and 13 and the horizontal tilt shafts 22 and 23 are configured such that one end portions thereof are pivotally supported so that the tilt angle can be changed. .

水平傾斜軸22、23は、一端部がそれぞれ架台フレーム1に垂直に配設された枢軸26において軸支され、他端部同士が連結材27によって連結されることで、水平傾斜軸22と水平傾斜軸23とが一体となって、枢軸26を軸に枢動可能となるように構成される(図3参照)。   The horizontal inclined shafts 22 and 23 are pivotally supported at pivots 26 each having a first end disposed perpendicular to the gantry frame 1, and the other end portions are connected to each other by a connecting member 27. The tilt shaft 23 is integrated with the tilt shaft 23 so as to be pivotable about the pivot 26 (see FIG. 3).

例えば、その枢動動作は、架台フレーム1に設けられた垂直支持材28に設置された調整ネジ29の螺進・螺退操作により行われる。調整ネジ29は、垂直支持材28から横に伸びるネジ用ブラケット30を通し、先端部が連結材27にねじ込まれる(連結材27自体に螺設し又はナットを固定する。)。かくして、調整ネジ27を螺進又は螺退させるに伴って、連結材27が押され又は引かれることになり、以て、水平傾斜軸22、23の傾斜角度調整が可能となる。   For example, the pivoting operation is performed by the screwing / unscrewing operation of the adjusting screw 29 installed on the vertical support member 28 provided on the gantry frame 1. The adjustment screw 29 passes through a screw bracket 30 extending laterally from the vertical support member 28, and the tip end portion is screwed into the connecting member 27 (screwed on the connecting member 27 itself or fixing a nut). Thus, the connecting member 27 is pushed or pulled as the adjusting screw 27 is advanced or retracted, and thus the inclination angle of the horizontal inclination shafts 22 and 23 can be adjusted.

好ましい実施形態においては、連結材27に横方向に伸びるストッパー板31が設置される。このストッパー板31は、垂直支持材28に当たることにより、水平傾斜軸22、23の傾斜角度(広角度方向)を規制し、過度の傾斜を防止する役目を果たす。また、垂直支持材28に、横方向に伸びるピン用ブラケット32が設置され、その端部にストッパーピン33が配備される。このストッパーピン33は、連結杆27に当たることにより、水平傾斜軸22、23の傾斜角度(狭角度方向)を規制し、過度の傾斜を防止する役目を果たす。   In a preferred embodiment, a stopper plate 31 extending in the lateral direction is installed on the connecting member 27. The stopper plate 31 plays a role of preventing the excessive inclination by restricting the inclination angle (wide angle direction) of the horizontal inclination shafts 22 and 23 by hitting the vertical support member 28. In addition, a pin bracket 32 extending in the lateral direction is installed on the vertical support member 28, and a stopper pin 33 is provided at an end thereof. The stopper pin 33 serves to prevent excessive inclination by restricting the inclination angle (narrow angle direction) of the horizontal inclination shafts 22 and 23 by hitting the connecting rod 27.

図示してないが、水平傾斜軸12、13も、上記水平傾斜軸22、23の場合と同様の方法で、一体に枢動可能に構成される。なお、上下の水平傾斜軸12と水平傾斜軸13、並びに、水平傾斜軸22と水平傾斜軸23は、それぞれ一体に枢動するために傾斜角度は同じであるが、上流端側ベルト受け部11の水平傾斜軸12、13の傾斜角度と、下流端側ベルト受け部21の水平傾斜軸22、23の傾斜角度は、必ずしも同じである必要はなく、用途に応じて任意に設定することができる。   Although not shown, the horizontal tilt shafts 12 and 13 are also configured to be pivotable integrally in the same manner as in the case of the horizontal tilt shafts 22 and 23. The upper and lower horizontal tilt shafts 12 and 13 and the horizontal tilt shaft 22 and the horizontal tilt shaft 23 have the same tilt angle because they pivot together, but the upstream end side belt receiving portion 11. The inclination angles of the horizontal inclination shafts 12 and 13 and the inclination angles of the horizontal inclination shafts 22 and 23 of the downstream end side belt receiving portion 21 are not necessarily the same, and can be arbitrarily set according to the application. .

一実施形態においては、平行軸14、15及び平行軸24、25も、枢動可能に構成される。そのために、平行軸24、25の一端部を軸支する軸受部材34、35が枢軸26において枢支され、平行軸24、25の他端部が、連結材36において軸支されると共に連結される(図3参照)。そして、架台フレーム1に設置された垂直支持材37を通して調整ネジ38が、連結材36にねじ込まれる。この場合も、調整ネジ38の螺進・螺退に伴って平行軸24、25が一体となって枢動することは、上記水平傾斜軸12、13、22、23の場合と同じである。また、平行軸14、15についても、平行軸24、25と同様の構成とすることができる。   In one embodiment, parallel axes 14, 15 and parallel axes 24, 25 are also configured to be pivotable. For this purpose, bearing members 34 and 35 that pivotally support one end portions of the parallel shafts 24 and 25 are pivotally supported by the pivot shaft 26, and the other end portions of the parallel shafts 24 and 25 are pivotally supported and connected by the connecting member 36. (See FIG. 3). Then, the adjusting screw 38 is screwed into the connecting member 36 through the vertical support member 37 installed on the gantry frame 1. In this case as well, the parallel shafts 24 and 25 pivot together as the adjustment screw 38 is screwed and unscrewed as in the case of the horizontal inclined shafts 12, 13, 22, and 23. Further, the parallel axes 14 and 15 can have the same configuration as the parallel axes 24 and 25.

上記水平傾斜軸12、13、22、23と平行軸14、15、24、25に対する無端ベルトの巻き掛けは、次のようにして行う。先ず、下流側のA視(図4)において、上流側から到来する往路のベルト40は、上段の水平傾斜軸22に沿って折り返され、その傾斜角に応じて搬送路から外れる方向に水平に進行し(傾斜角が45度であれば、搬送方向と直角の方向に進行する。)、搬送路から外に出る。そして、上段の平行軸24に巻き掛けられて下方に進行し、下段の平行軸25に巻き掛けられて内方に引き込まれた後、下段の水平傾斜軸23に上方から巻き掛けられて、往路の下側の復路を進行する。   The endless belt is wound around the horizontal inclined shafts 12, 13, 22, 23 and the parallel shafts 14, 15, 24, 25 as follows. First, in view A (FIG. 4) on the downstream side, the forward belt 40 coming from the upstream side is folded along the horizontal inclined shaft 22 on the upper stage and horizontally in a direction away from the conveying path according to the inclination angle. Proceeds (if the tilt angle is 45 degrees, it proceeds in the direction perpendicular to the transport direction) and goes out of the transport path. Then, it is wound around the upper parallel shaft 24 and travels downward, is wound around the lower parallel shaft 25 and pulled inward, and is then wound around the lower horizontal inclined shaft 23 from the upper side. Proceed on the lower return path.

一方、上流側のB視(図5)においては、下流側から到来する復路のベルト40aは、下段の水平傾斜軸13に沿って折り返されて搬送路外に出され、平行軸15、14に掛け回されて上方に進行した後内方に引き込まれた後、上段の水平傾斜軸12に下方から巻き掛けられることにより、往路のベルト40となる。   On the other hand, in the B view on the upstream side (FIG. 5), the return belt 40a arriving from the downstream side is folded back along the horizontal inclined shaft 13 at the lower stage and out of the conveying path, and is connected to the parallel shafts 15 and 14. After being wound around and progressing upward, the belt is drawn inward, and then wound around the upper horizontal inclined shaft 12 from below, thereby forming the forward belt 40.

復路のベルト40aは、その中間位置において、架台フレーム1に設置された駆動モータ41のプーリに巻回されることにより、循環駆動される。また、復路のベルト40aは、複数の緊張ローラー42によって、緊張状態が維持される。   The belt 40a on the return path is circulated and driven by being wound around a pulley of a drive motor 41 installed in the gantry frame 1 at an intermediate position. Further, the belt 40 a on the return path is maintained in a tension state by the plurality of tension rollers 42.

図6は、本発明に係るコンベア間移載用コンベア装置の使用例を示す簡略図である。その(A)に示す例は、上流側コンベア51によって搬送されてくる物品を、上流側コンベア51から離れていて上流側コンベア51と平行方向に伸びる下流側コンベア52に移送するためのものである。この場合の上流側コンベア51は、その下流側端部が本装置の上流側端部上に張り出し、また、下流側コンベア52は、その上流側端部が、本装置の下流側端部の下側に位置するように配置される。   FIG. 6 is a simplified diagram showing an example of use of the inter-conveyor transfer conveyor device according to the present invention. The example shown in (A) is for transferring articles conveyed by the upstream conveyor 51 to a downstream conveyor 52 that is separated from the upstream conveyor 51 and extends in a direction parallel to the upstream conveyor 51. . In this case, the upstream conveyor 51 has a downstream end projecting over the upstream end of the apparatus, and the downstream conveyor 52 has an upstream end below the downstream end of the apparatus. It arrange | positions so that it may be located in the side.

下流端側ベルト受け部21における水平傾斜軸22、23間の間隔(図4参照)が、上流端側ベルト受け部11における水平傾斜軸12、13間の間隔(図5参照)よりも広く設定されるのは、下流側コンベア52の上流側端部が、水平傾斜軸22、23間に入り込めるようにするためである。かくして、上流側コンベア51によって搬送されてくる物品は、その下流側端部から本装置上に落ちて搬送され、本装置の下流側端部から下流側コンベア52上に落ちて搬送されていく。   The interval between the horizontal inclined shafts 22 and 23 in the downstream end belt receiving portion 21 (see FIG. 4) is set wider than the interval between the horizontal inclined shafts 12 and 13 in the upstream end belt receiving portion 11 (see FIG. 5). The reason is that the upstream end of the downstream conveyor 52 can enter between the horizontal inclined shafts 22 and 23. Thus, the articles conveyed by the upstream conveyor 51 fall from the downstream end to the apparatus and are conveyed, and fall from the downstream end of the apparatus to the downstream conveyor 52 and are conveyed.

図6(B)に示す使用例は、上流側コンベア51と下流側コンベア52の間隔が図6(A)に示す例の場合よりも狭い場合であり、図6(C)に示す使用例は、上流側コンベア51と本装置との間にカーブコンベア53を配した場合である。本装置の使用例はその他にも種々考えられ、ここに限定し切れない。   The usage example shown in FIG. 6 (B) is a case where the interval between the upstream conveyor 51 and the downstream conveyor 52 is narrower than the example shown in FIG. 6 (A), and the usage example shown in FIG. 6 (C) is In this case, a curve conveyor 53 is arranged between the upstream conveyor 51 and the present apparatus. Various other examples of use of this apparatus are conceivable and are not limited to these.

なお、図6(A)に示されるように、上流側コンベア51と本装置のなす角が大きい場合は、物品の乗り移りがスムーズにいかないことが多いため、各コンベアの搬送面の高さを異ならしめることが多いが、図6(B)に示される場合のように、上流側コンベア51と本装置のなす角が小さい場合は、各コンベアの搬送面の高さを同じにしても差し支えない。また、図6(C)に示すように、カーブコンベア53を用いる場合は、各コンベアの搬送面の高さは同じにされる。   As shown in FIG. 6A, when the angle between the upstream conveyor 51 and this apparatus is large, the transfer of articles often does not go smoothly. Although it is often different, if the angle formed by the upstream conveyor 51 and this apparatus is small as in the case shown in FIG. 6B, the height of the conveyor surface of each conveyor may be the same. . Moreover, as shown in FIG.6 (C), when using the curve conveyor 53, the height of the conveyance surface of each conveyor is made the same.

この発明をある程度詳細にその最も好ましい実施形態について説明してきたが、この発明の精神と範囲に反することなしに広範に異なる実施形態を構成することができることは明白である。従って、この発明は、添付請求の範囲において限定した以外はその特定の実施形態に制約されるものではない。   Although the invention has been described in some detail with its most preferred embodiments, it is evident that a wide variety of embodiments can be constructed without departing from the spirit and scope of the invention. Accordingly, the invention is not limited to that particular embodiment, except as limited in the appended claims.

1 架台フレーム
2 側枠
11 上流端側ベルト受け部
12、13 水平傾斜軸
14、15 平行軸
21 下流端側ベルト受け部
22、23 水平傾斜軸
24、25 平行軸
26 枢軸
27 連結材
28 垂直支持材
29 調整ネジ
30 ネジ用ブラケット
31 ストッパー板
32 ピン用ブラケット
33 ストッパーピン
34、35 軸支部材
36 連結材
37 垂直支持材
38 調整ネジ
40 ベルト
41 駆動モータ
42 緊張ローラー
51 上流側コンベア
52 下流側コンベア
53 カーブコンベア DESCRIPTION OF SYMBOLS 1 Base frame 2 Side frame 11 Upstream end side belt receiving part 12, 13 Horizontal inclined shaft 14, 15 Parallel axis 21 Downstream end side belt receiving part 22, 23 Horizontal inclined axis 24, 25 Parallel axis 26 Axis 27 Connecting material 28 Vertical support Material 29 Adjustment screw 30 Screw bracket 31 Stopper plate 32 Pin bracket 33 Stopper pin 34, 35 Shaft support member 36 Connection material 37 Vertical support material 38 Adjustment screw 40 Belt 41 Drive motor 42 Tension roller 51 Upstream conveyor 52 Downstream conveyor 53 Curve conveyor

Claims (5)

搬送面を区画する下流端側ベルト受け部と上流端側ベルト受け部とがそれぞれ、上下二段の水平傾斜軸と上下二段の平行軸とで構成され、前記下流端側ベルト受け部の上下水平傾斜軸と前記上流端側ベルト受け部の上下水平傾斜軸はそれぞれ、前記搬送面の搬送方向に直交する方向に対して角度を持たせて配設され、前記上下二段の平行軸はそれぞれ、前記搬送面の外側位置において前記搬送面の搬送方向と平行状態に配置され、往路のベルトは、前記下流端側ベルト受け部の上段水平傾斜軸を経ることによって前記搬送面域外に出され、前記上下二段の平行軸を経て前記搬送面域内に戻された後、前記下流端側ベルト受け部の下段水平傾斜軸を経ることによって前記往路の下側の復路を形成し、前記復路のベルトは、前記上流端側ベルト受け部の下段水平傾斜軸を経ることによって前記搬送面域外に出され、前記上下二段の平行軸を経て前記搬送面域内に戻された後、前記上流端側ベルト受け部の上段水平傾斜軸を経ることによって前記往路を形成することを特徴とするコンベア間移載用コンベア装置。   Each of the downstream end side belt receiving portion and the upstream end side belt receiving portion that divides the conveyance surface is composed of two horizontal upper and lower horizontal inclined axes and two upper and lower parallel shafts, and the upper and lower ends of the downstream end belt receiving portion. A horizontal inclination axis and an upper and lower horizontal inclination axis of the upstream end side belt receiving portion are respectively arranged at an angle with respect to a direction orthogonal to the conveying direction of the conveying surface, and the upper and lower two parallel axes are respectively The outer belt is disposed in parallel with the conveying direction of the conveying surface at a position outside the conveying surface, and the forward belt is taken out of the conveying surface area through the upper horizontal inclined axis of the downstream end side belt receiving portion, After returning to the conveyance surface area through the two upper and lower parallel shafts, the lower end of the downstream end belt receiving portion is passed through a lower horizontal inclined axis to form a lower return path of the forward path, and the belt of the return path The upstream end belt receiver After passing through the lower horizontal tilt axis of the part, the upper horizontal tilt axis of the upstream end belt receiving part is moved out of the transport surface area and returned to the transport surface area through the two upper and lower parallel axes. By passing, the said outward path is formed, The conveyor apparatus for transfer between conveyors characterized by the above-mentioned. 前記下流端側ベルト受け部の上下二段の水平傾斜軸と前記上流端側ベルト受け部の上下二段の水平傾斜軸は、それぞれ枢動可能にされてその傾斜角度の変更が可能にされる、請求項1に記載のコンベア間移載用コンベア装置。   The two upper and lower horizontal inclined shafts of the downstream end side belt receiving portion and the two upper and lower horizontal inclined shafts of the upstream end side belt receiving portion are pivotable so that the inclination angle can be changed. The conveyor apparatus for transfer between conveyors of Claim 1. 前記下流端側ベルト受け部の上下二段の平行軸と前記上流端側ベルト受け部の上下二段の平行軸は、それぞれ枢動可能にされてその傾斜角度の変更が可能にされる、請求項1又は2に記載のコンベア間移載用コンベア装置。   The upper and lower two-stage parallel shafts of the downstream end side belt receiving part and the upper and lower two-stage parallel axes of the upstream end side belt receiving part are respectively pivotable so that the inclination angle can be changed. Item 3. The conveyor device for transfer between conveyors according to Item 1 or 2. 前記下流端側ベルト受け部の上下二段の水平傾斜軸の間隔は、前記上流端側ベルト受け部の上下二段の水平傾斜軸の間隔よりも広くされる、請求項1乃至3のいずれかに記載のコンベア間移載用コンベア装置。   The distance between the two upper and lower horizontal inclined shafts of the downstream end side belt receiving portion is wider than the distance between the two upper and lower horizontal inclined shafts of the upstream end belt receiving portion. The conveyor apparatus for transfer between conveyors as described in any one of Claims 1-3. 前記下流端側ベルト受け部の上下二段の水平傾斜軸及び前記上流端側ベルト受け部の上下二段の水平傾斜軸は、回転することのない断面円形の樹脂材で構成される、請求項1乃至4のいずれかに記載のコンベア間移載用コンベア装置。   The upper and lower two-stage horizontal inclined shafts of the downstream end side belt receiving portion and the upper and lower two-stage horizontal inclined shafts of the upstream end side belt receiving portion are made of a resin material having a circular cross section that does not rotate. The conveyor apparatus for transfer between conveyors in any one of 1-4.
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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS494377U (en) * 1972-04-14 1974-01-16
JPS51130577U (en) * 1975-04-15 1976-10-21
JPS6081919U (en) * 1983-11-07 1985-06-06 株式会社足立機械製作所 End roller bearing mechanism in belt conveyor
JPH0175006U (en) * 1987-11-05 1989-05-22
US20020121429A1 (en) * 2001-03-03 2002-09-05 Transnorm System Gmbh Device for inward and/or outward transfer of material to be conveyed

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS494377U (en) * 1972-04-14 1974-01-16
JPS51130577U (en) * 1975-04-15 1976-10-21
JPS6081919U (en) * 1983-11-07 1985-06-06 株式会社足立機械製作所 End roller bearing mechanism in belt conveyor
JPH0175006U (en) * 1987-11-05 1989-05-22
US20020121429A1 (en) * 2001-03-03 2002-09-05 Transnorm System Gmbh Device for inward and/or outward transfer of material to be conveyed

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