JP2002338017A - Connection structural body, and frame assembly facility having the body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a connection structural body which can be easily and firmly assembled with high accuracy. SOLUTION: A connecting means 40 used between a first member 20 and second members 30A and 30B which are disposed in an intersecting manner comprises a first connection member 41 attachable/detachable to/from the first member 20 in the transverse direction, a second connection member 45 provided on the second members 30A and 30B side, and a tightening connector 50 operable between the connection members 41 and 45. The first connection member 41 is engaged with the first member 20 from the transverse direction, the second members 30A and 30B are disposed in an intersecting manner to face the second connection member 45 to the first connection member 41, and the tightening connector 50 is tightened to connect the first connection member 41 to one second connection member 45. The members 20, 30A and 30B which are disposed in an intersecting manner can be connected to each other by the connecting means 40, and a connection structural body 55 can be easily and firmly assembled with high accuracy.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【０００１】[0001]

【発明の属する技術分野】本発明は、たとえば枠組体に
おける一対の部材間の連結などに採用される連結構造
体、および荷保管用の流動棚などに採用される連結構造
体を備えた枠組体設備に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a connection structure used for connection between a pair of members in a frame, and a connection structure used for a flow shelf for storing cargo. It concerns equipment.

【０００２】[0002]

【従来の技術】従来、この種の流動棚としては、実公平
２−２５７６４号公報に見られる構成が提供されてい
る。すなわち、この従来構成における流動棚は、上下左
右に亘り多数の棚小間が配設され、各棚小間の底部に
は、それぞれ横梁が横架され、この横梁上の両側に、搬
入端から搬出端に向かい傾斜して対をなした支持レール
が架設され、これら支持レールに支持案内される流動棚
用キャリヤが設けられて構成されている。その際に、横
梁上への支持レールの架設は、通常、横梁に対して支持
レールが溶接により結合されることで構成されている。2. Description of the Related Art Conventionally, as this type of fluidized shelves, the structure shown in Japanese Utility Model Publication No. 2-25764 has been provided. That is, in the fluidized shelf of this conventional configuration, a number of shelf booths are arranged vertically and horizontally, and a horizontal beam is laid on the bottom of each shelf booth. A pair of support rails are installed to be inclined in the direction of, and a carrier for a flow shelf supported and guided by these support rails is provided. At that time, the support rails are erected on the cross beams by usually connecting the support rails to the cross beams by welding.

【０００３】[0003]

【発明が解決しようとする課題】しかし上記した従来構
成によると、複数の横梁に対して、支持レールの多数箇
所が溶接により結合されることで、その結合作業は面倒
であり、また溶接を行えない据え付け現場では組み立て
を容易に行えなかった。However, according to the above-mentioned conventional construction, since a large number of portions of the support rail are joined to a plurality of cross beams by welding, the joining operation is troublesome and welding can be performed. There was no easy installation at the installation site.

【０００４】そこで本発明の請求項１記載の発明は、容
易に精度よくかつ強固に組み立て得る連結構造体を提供
することを目的としたものである。また本発明の請求項
５記載の発明は、流動棚などに容易に採用し得る連結構
造体を備えた枠組体設備を提供することを目的としたも
のである。Accordingly, an object of the present invention is to provide a connecting structure that can be assembled easily, accurately, and firmly. It is another object of the present invention to provide a frame facility having a connecting structure that can be easily adopted for a fluidized shelf or the like.

【０００５】[0005]

【課題を解決するための手段】前述した目的を達成する
ために、本発明のうちで請求項１記載の連結構造体は、
第１の部材に横方向から係脱自在な１個の第１連結部材
と、第２の部材側に設けられた１個の第２連結部材と、
両連結部材間に亘って作用可能な締付け連結具とにより
構成されていることを特徴としたものである。In order to achieve the above-mentioned object, according to the present invention, a connecting structure according to claim 1 is provided.
One first connecting member that is detachably attached to the first member from the lateral direction, one second connecting member provided on the second member side,
It is characterized in that it is constituted by a fastening connection tool that can operate between the two connection members.

【０００６】したがって請求項１の発明によると、第１
の部材に対して第１連結部材を横方向から係合させたの
ち、第２の部材を交差状に配設して、その第２連結部材
を第１連結部材に対向させ、そして締付け連結具を締付
け操作することで、第１連結部材と第２連結部材とを連
結し得る。Therefore, according to the first aspect of the present invention, the first
After the first connecting member is laterally engaged with the member, the second member is disposed in a cross shape, the second connecting member is opposed to the first connecting member, and the fastening connector is provided. By performing the tightening operation, the first connecting member and the second connecting member can be connected.

【０００７】また本発明の請求項２記載の連結構造体
は、上記した請求項１記載の構成において、第１連結部
材と第２連結部材とが、それぞれ１個であることを特徴
としたものである。According to a second aspect of the present invention, there is provided the connecting structure according to the first aspect, wherein each of the first connecting member and the second connecting member is one. It is.

【０００８】したがって請求項２の発明によると、第２
連結部材を第１連結部材に対向させて締付け連結具を締
付け操作することで、１個の第１連結部材と１個の第２
連結部材とを連結し得る。Therefore, according to the second aspect of the present invention, the second
One connecting member and one second connecting member are operated by tightening the tightening connecting member with the connecting member facing the first connecting member.
The connecting member may be connected.

【０００９】そして本発明の請求項３記載の連結構造体
は、上記した請求項１または２記載の構成において、第
１の部材は、天板部と側板部とを有するとともに、天板
部と側板部とからなるコーナ部分で長さ方向の複数箇所
にスリット部が形成され、第１連結部材は、平板状の連
結用板部と、この連結用板部の両端部分から折曲された
一対の係止用板部からなり、両係止用板部は前記スリッ
ト部に振り分けて横方向から挿通可能でかつ天板部の内
面に当接可能に形成され、第２連結部材は、前記天板部
の外面から連結用板部に亘って当接可能に形成されてい
ることを特徴としたものである。According to a third aspect of the present invention, in the connection structure according to the first or second aspect, the first member has a top plate and a side plate, and the first member has a top plate and a side plate. Slits are formed at a plurality of locations in the length direction at the corner portion formed by the side plate portion, and the first connecting member includes a flat connecting plate portion and a pair of bent portions from both end portions of the connecting plate portion. The locking plate portions are formed so as to be divided into the slit portions, can be inserted from the lateral direction, and can be in contact with the inner surface of the top plate portion. It is characterized in that it is formed so as to be able to abut from the outer surface of the plate portion to the connection plate portion.

【００１０】したがって請求項３の発明によると、第１
の部材のスリット部に対して、第１連結部材における係
止用板部を横方向から係合させることにより、連結用板
部を天板部の外面に当接させるとともに、係止用板部を
天板部の内面に当接させ得、以て第１連結部材を第１の
部材側に係合し得る。このように第１連結部材をセット
した状態で、第２の部材を交差状に配設させることによ
り、天板部と連結用板部との間に第２連結部材を対向し
得る。そして締付け連結具を締付け操作することで、１
個の第１連結部材と１個の第２連結部材とを連結し得
る。Therefore, according to the third aspect of the present invention, the first
By engaging the locking plate portion of the first connecting member laterally with the slit portion of the member, the connecting plate portion contacts the outer surface of the top plate portion, and the locking plate portion Can be brought into contact with the inner surface of the top plate portion, so that the first connecting member can be engaged with the first member side. By arranging the second members in an intersecting manner with the first connecting member set in this way, the second connecting member can be opposed between the top plate and the connecting plate. By tightening the tightening connector, 1
One first connecting member and one second connecting member can be connected.

【００１１】さらに本発明の請求項４記載の連結構造体
は、上記した請求項１〜３のいずれかに記載の構成にお
いて、第１連結部材は、第１の部材に対して斜め上方の
横方向から差込んだのち水平状とすることで、第１の部
材側に係合されることを特徴としたものである。According to a fourth aspect of the present invention, there is provided the connecting structure according to any one of the first to third aspects, wherein the first connecting member is disposed obliquely upward with respect to the first member. It is characterized by being inserted into the first member and then being made horizontal so as to be engaged with the first member side.

【００１２】したがって請求項４の発明によると、第１
の部材に対して、第１連結部材を斜め上方の横方向から
差込んだのち、シーソー動させることにより、第１連結
部材を水平状として第１の部材側に係合し得る。Therefore, according to the fourth aspect of the present invention, the first
After the first connecting member is inserted obliquely upward from the lateral direction into the member described above, the first connecting member can be made horizontal and engaged with the first member by moving the seesaw.

【００１３】しかも本発明の請求項５記載の連結構造体
を備えた枠組体設備は、請求項１〜４のいずれかに記載
の連結構造体を備えた枠組体設備であって、前後方向な
らびに左右方向に間隔を置いて縦枠が立設され、左右の
縦枠間に横枠が設けられ、前後の横枠間に前後枠が配設
され、縦枠には上下方向の所定間隔置きに係止部が形成
され、横枠には前記係止部に係合可能な被係止部が設け
られ、横枠に対する前後枠の連結が連結構造体により行
われることを特徴としたものである。Further, a framework assembly provided with the connecting structure according to claim 5 of the present invention is a framework assembly equipped with the connecting structure according to any one of claims 1 to 4, wherein the framework assembly is provided with: Vertical frames are erected at intervals in the left and right direction, horizontal frames are provided between the left and right vertical frames, front and rear frames are arranged between the front and rear horizontal frames, and the vertical frames are placed at predetermined vertical intervals. A locking portion is formed, a locked portion engageable with the locking portion is provided on the horizontal frame, and connection of the front and rear frames to the horizontal frame is performed by a connecting structure. .

【００１４】したがって請求項５の発明によると、目的
とするレベルの係止部に被係止部を係合させるだけで縦
枠間に横枠を設け得、そして、横枠に対する前後枠の配
設は、連結構造体の連結手段を介在して連結することで
行える。Therefore, according to the fifth aspect of the invention, the horizontal frame can be provided between the vertical frames only by engaging the locked portion with the locking portion of the target level, and the arrangement of the front and rear frames with respect to the horizontal frame. The connection can be performed by connecting via a connecting means of the connecting structure.

【００１５】また本発明の請求項６記載の連結構造体を
備えた枠組体設備は、上記した請求項５記載の構成にお
いて、前後枠は左右において複数本であって、前後枠群
の上方に、上下方向で傾斜された前後方向の荷保管経路
が形成されていることを特徴としたものである。According to a sixth aspect of the present invention, there is provided a frame assembly facility having the connecting structure according to the fifth aspect, wherein the front and rear frames are plural on the left and right sides, and are provided above the front and rear frame groups. And a load storage route in the front-back direction inclined in the vertical direction is formed.

【００１６】したがって請求項５の発明によると、上下
方向で傾斜した前後方向の荷保管経路により、枠組体設
備を荷保管用の流動棚などに採用し得る。Therefore, according to the fifth aspect of the present invention, the frame assembly equipment can be used as a load storage shelving or the like by the load storage path in the front-back direction inclined in the vertical direction.

【００１７】[0017]

【発明の実施の形態】以下に、本発明の実施の形態を、
荷保管用の流動棚に採用した状態として図１〜図１４に
基づいて説明する。DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below.
A description will be given with reference to FIGS.

【００１８】図１〜図６に示すように、枠組体設備１
は、前後方向Ａならびに左右方向Ｂに間隔を置いて立設
された縦枠１０と、左右の縦枠１０間に設けられた横枠
（第１の部材の一例）２０と、前後の横枠２０間に配設
された前後枠（第２の部材の一例）３０Ａ，３０Ｂなど
により枠組状に構成され、前記縦枠１０群を脚体として
床上などに設置されている。As shown in FIG. 1 to FIG.
A vertical frame 10 erected at intervals in the front-rear direction A and the left-right direction B; a horizontal frame (an example of a first member) 20 provided between the left and right vertical frames 10; A frame is formed by front and rear frames (an example of a second member) 30A, 30B and the like disposed between the frames 20, and is installed on a floor or the like with the vertical frames 10 as legs.

【００１９】前記縦枠１０は、前後方向Ａに向けられる
外板部１１と、この外板部１１の左右両端から直角状で
かつ同方向に連設された左右一対の側板部１２と、これ
ら側板部１２の端から直角状でかつ相対向側へ連設され
た左右一対の内板部１３と、これら内板部１３の端から
直角状でかつ外板部１１から離れる側へ連設された左右
一対の端板部１４などを有する状態で折り曲げられ、以
て型材状に形成されている。The vertical frame 10 includes an outer plate portion 11 oriented in the front-rear direction A, a pair of left and right side plate portions 12 which are formed at right angles from both left and right ends of the outer plate portion 11 and are connected in the same direction. A pair of left and right inner plate portions 13 are provided at right angles from the ends of the side plate portions 12 and are provided on opposite sides, and are provided at right angles from the ends of the inner plate portions 13 and extend away from the outer plate portions 11. It is bent in a state having a pair of left and right end plate portions 14 and the like, and is thus formed into a shape.

【００２０】そして外板部１１には、その中央部分に内
方への凹入部１５が、上下方向Ｃの全長に亘って形成さ
れている。さらに、外板部１１における凹入部１５の奥
部には、上下方向Ｃで長い長方形孔１６が上下方向Ｃで
所定間隔置きに形成され、以て外板部１１における長方
形孔１６の底部を形成する部分によって、それぞれ係止
部１１ａが形成されている。The outer plate portion 11 is provided with an inward recess 15 at the center thereof over the entire length in the vertical direction C. Further, rectangular holes 16 long in the up-down direction C are formed at predetermined intervals in the up-down direction C in the inner portion of the recessed portion 15 in the outer plate portion 11, thereby forming the bottom of the rectangular holes 16 in the outer plate portion 11. The locking portions 11a are formed by the respective portions.

【００２１】ここで縦枠１０は、前後方向Ａにおいて５
本（複数本）が、中間の１箇所を短い間隔ｌとしかつ残
りの３箇所を長い間隔Ｌとして、それぞれ間隔を置いて
立設されている。また縦枠１０は、左右方向Ｂにおいて
２本（複数本）が、所定の幅間隔Ｗを置いて立設されて
いる。In this case, the vertical frame 10 is
Books (a plurality of books) are erected at intervals, with one intermediate location being a short interval l and the remaining three locations being a long interval L. Two (plural) vertical frames 10 are erected in the left-right direction B with a predetermined width interval W therebetween.

【００２２】そして、前後方向Ａにおける両端部の縦枠
１０と、これに対向される縦枠１０との間には、連結枠
（ラチス）１８が設けられている。ここで連結枠１８
は、水平状または傾斜状として複数本が配設され、その
際に連結枠１８の両端は端板部１４間に位置されて、連
結具を介して端板部１４側に連結されている。A connecting frame (lattice) 18 is provided between the vertical frame 10 at both ends in the front-rear direction A and the vertical frame 10 facing the vertical frame 10. Here the connection frame 18
Are arranged in a horizontal or inclined shape. At this time, both ends of the connection frame 18 are located between the end plate portions 14 and connected to the end plate portion 14 side via a connection tool.

【００２３】前記横枠２０は、図１〜図６、図１４に示
すように、上方に位置される天板部２１と、この天板部
２１の前後両端から直角状でかつ下方向に連設された前
後一対の側板部２２と、これら側板部２２の下端から直
角状でかつ相対向側へ連設された前後一対の底板部２３
と、これら底板部２３の端間の連結を行う嵌合連結部２
４などを有する状態で折り曲げられ、以て筒型材状に形
成されている。その際に天板部２１は、前後方向Ａにお
いて上位天板部分２１ａと下位天板部分２１ｂとを有す
る状態で階段状に形成されている。As shown in FIGS. 1 to 6 and FIG. 14, the horizontal frame 20 is connected to a top plate 21 located at an upper side and a right angle and downward from both front and rear ends of the top plate 21. A pair of front and rear side plate portions 22 provided, and a pair of front and rear bottom plate portions 23 formed at right angles from the lower ends of these side plate portions 22 and connected to opposite sides.
And a fitting connecting portion 2 for connecting between the ends of the bottom plate portion 23.
4 and the like, so that it is formed in a tubular shape. At that time, the top plate portion 21 is formed in a step-like shape with an upper top plate portion 21a and a lower top plate portion 21b in the front-rear direction A.

【００２４】そして、下位天板部分２１ｂと、この下位
天板部分２１ｂに隣接された一方の側板部２２とからな
るコーナ部分にスリット部２５が形成されている。ここ
でスリット部２５は、長さ方向である左右方向Ｂの両側
に振り分けられ、そして両側には、左右方向Ｂに１対に
設けられることで１組として、それぞれ２組が形成され
ている。すなわちスリット部２５は、合計で８箇所に形
成されている。A slit portion 25 is formed in a corner portion composed of the lower top plate portion 21b and one side plate portion 22 adjacent to the lower top plate portion 21b. Here, the slit portions 25 are distributed on both sides in the left-right direction B which is the length direction, and two sets are formed on both sides as one set by being provided in a pair in the left-right direction B. That is, the slit portions 25 are formed at eight places in total.

【００２５】前記横枠２０の左右方向Ｂの両端面には、
それぞれ被係止部材２６が設けられている。すなわち被
係止部材２６は、図６、図７、図１３に示すように、左
右方向Ｂの内側に位置される内側板部２７と、この内側
板部２７の前後一端から直角状でかつ外方向に連設され
た前後板部２８と、この前後板部２８の外端から直角状
でかつ内側板部２７に相対向される側へ連設された外側
板部２９などを有する状態で折り曲げられ、以て型材状
に形成されている。そして横枠２０の両端面に内側板部
２７が当接されて溶接により結合されている。On both end surfaces of the horizontal frame 20 in the left-right direction B,
Each locked member 26 is provided. That is, as shown in FIGS. 6, 7 and 13, the locked member 26 has an inner plate portion 27 located inside the left-right direction B, and a right angle The front and rear plate portions 28 connected in the direction are bent in a state having an outer plate portion 29 and the like, which are provided at right angles from the outer ends of the front and rear plate portions 28 and are connected to a side opposed to the inner plate portion 27. Thus, it is formed in the shape of a mold. Then, the inner plate portions 27 abut on both end surfaces of the horizontal frame 20 and are joined by welding.

【００２６】さらに外側板部２９の端からは、下向きの
被係止部２９ａが一体に連設され、その際に被係止部２
９ａは、前記縦枠１０における長方形孔１６の所定間隔
置きに等しくして、上下方向Ｃの複数箇所に設けられて
いる。ここで被係止部２９ａ群は、長方形孔１６群に対
して外側から通され、そして係止部１１ａ群に対して上
方から係合可能に構成されている。そのために被係止部
材２６は、縦枠１０における外板部１１や一方の側板部
１２などに対して外嵌されるように形成されている。Further, from the end of the outer plate portion 29, a downward locked portion 29a is integrally provided continuously, and at this time, the locked portion 2a is formed.
9a are provided at a plurality of locations in the vertical direction C, at equal intervals of the rectangular holes 16 in the vertical frame 10 at predetermined intervals. Here, the group of locked portions 29a is configured to be passed through the group of rectangular holes 16 from outside, and to be able to engage with the group of locking portions 11a from above. For this purpose, the locked member 26 is formed so as to be externally fitted to the outer plate 11 or one side plate 12 of the vertical frame 10.

【００２７】図１〜図６に示すように、前後枠は、左右
方向Ｂに一対で外側に位置された長尺前後枠３０Ａと、
左右方向Ｂに一対で内側に位置された短尺前後枠３０Ｂ
とからなり、それぞれ、上方に位置される天板部３１
と、左右一対の側板部３２と、下方に位置される底板部
３３などを有する状態で、四角筒型材状に形成されてい
る。そして前後枠３０Ａ，３０Ｂの前端部分には、長方
形状の連結用プレート３４が溶接により結合され、この
連結用プレート３４の左右両端の所定箇所にはボルト用
の貫通孔が形成されている。また前後枠３０Ａ，３０Ｂ
の後端部分には、ストッパー体３６が立設状で設けられ
ている。As shown in FIGS. 1 to 6, the front and rear frames are a pair of long front and rear frames 30A located outside in the left-right direction B.
A pair of short front and rear frames 30B positioned inside in a pair in the left-right direction B
And the top plate portion 31 located above each
, A pair of left and right side plate portions 32, a bottom plate portion 33 positioned below, and the like, are formed in a square tubular shape. A rectangular connecting plate 34 is welded to the front ends of the front and rear frames 30A and 30B, and through holes for bolts are formed at predetermined positions on both left and right ends of the connecting plate 34. The front and rear frames 30A, 30B
At the rear end portion, a stopper body 36 is provided upright.

【００２８】前記横枠２０に対する前後枠３０Ａ，３０
Ｂの配設は、所定高さの連結手段４０やスペーサ手段６
０などが介在されて、上下方向で傾斜して行われる。こ
こで所定高さの連結手段４０は、図１、図７、図８に示
すように、横枠２０に対して横方向から係脱自在な１個
の第１連結部材４１と、前後枠３０Ａ，３０Ｂ側に設け
られた１個の第２連結部材４５と、両連結部材４１，４
５間に亘って作用可能な締付け連結具５０などにより構
成されている。The front and rear frames 30A, 30 with respect to the horizontal frame 20
B is provided by connecting means 40 or spacer means 6 having a predetermined height.
0 and the like are interposed, and the inclination is performed in the vertical direction. Here, as shown in FIGS. 1, 7, and 8, the connecting means 40 having a predetermined height is composed of one first connecting member 41 which can be disengaged from the horizontal frame 20 in the lateral direction, and the front and rear frames 30A. , 30B, one second connecting member 45 and both connecting members 41, 4
It is constituted by a tightening connection tool 50 that can operate over five spaces.

【００２９】すなわち第１連結部材４１は、長方形で平
板状の連結用板部４２と、この連結用板部４２の長手方
向の両端部分から折曲された一対の係止用板部４３とに
より下方開放のチャンネル状に形成され、その際に連結
用板部４２に対して係止用板部４３が長く形成されて、
その突出部分によって上向きの当接部分４３ａが形成さ
れている。また連結用板部４２には、長手方向の両端部
分の付近にそれぞれボルト用の貫通孔４４が形成されて
いる。That is, the first connecting member 41 is composed of a rectangular and flat connecting plate portion 42 and a pair of locking plate portions 43 bent from both longitudinal ends of the connecting plate portion 42. It is formed in the shape of a channel that opens downward, and at that time, the locking plate 43 is formed longer than the connecting plate 42,
The projecting portion forms an upward contact portion 43a. Further, through holes 44 for bolts are formed in the connecting plate portion 42 near both ends in the longitudinal direction.

【００３０】ここで第１連結部材４１の両係止用板部は
４３は、横枠２０のスリット部２５に振り分けて、その
当接部分４３ａを先行させて斜め上方の横方向（前後方
向Ａ）から差込んだ（挿通させた）のち、シーソー動さ
せる。これにより第１連結部材４１は、連結用板部４２
を下位天板部分２１ｂに上方から当接させるとともに、
当接部分４３ａを上位天板部分２１ａの内面に下方から
当接させて水平状となり、以て横枠２０側に係合され
る。その際に、上位天板部分２１ａと連結用板部４２と
の上面は同一状のレベルに位置される。Here, the both locking plate portions 43 of the first connecting member 41 are distributed to the slit portions 25 of the horizontal frame 20, and the abutting portions 43a precede the obliquely upward horizontal direction (front-back direction A). ), And then move the seesaw. Thereby, the first connecting member 41 is connected to the connecting plate portion 42.
Is brought into contact with the lower top plate portion 21b from above,
The contact portion 43a is brought into contact with the inner surface of the upper top plate portion 21a from below to be horizontal, and is thereby engaged with the horizontal frame 20 side. At this time, the upper surfaces of the upper top plate portion 21a and the connecting plate portion 42 are located at the same level.

【００３１】また第２連結部材４５は、上板部４６と、
この上板部４６の両側から直角状でかつ下方に連設され
た側板部４７と、これら側板部４７の下端から直角状で
かつ外方に連設された下板部４８とにより型材状に形成
され、そして両下板部４８には、それぞれボルト用の長
孔４９が貫通して形成されている。その際に第２連結部
材４５は、前記天板部２１の上面から連結用板部４２の
上面に亘って当接可能に形成されている。なお第２連結
部材４５は、その上板部４２が前後枠３０Ａ，３０Ｂの
底板部３３の所定箇所に下方から当接された状態で、予
め製作工場において溶接により結合されている。The second connecting member 45 includes an upper plate 46,
A side plate portion 47 is provided at right angles from both sides of the upper plate portion 46 and extends downward, and a lower plate portion 48 is provided at right angles from the lower ends of these side plate portions 47 and extends outwardly to form a mold. A long hole 49 for a bolt is formed through each of the lower plate portions 48. At this time, the second connecting member 45 is formed so as to be able to abut from the upper surface of the top plate 21 to the upper surface of the connecting plate 42. The second connection member 45 is previously joined by welding at a manufacturing plant in a state where the upper plate portion 42 is in contact with a predetermined portion of the bottom plate portion 33 of the front and rear frames 30A, 30B from below.

【００３２】前述したように、１個の第１連結部材４１
が横枠２０側に係合されたのち、この第１連結部材４１
における連結用板部４２の上面から天板部２１の上面に
亘って第２連結部材４５の下板部４８が載置されること
で、貫通孔４４に対して長孔４９が連通される。そして
連通された孔４４，４９間に締付け連結具５０が作用さ
れる。すなわちボルト５１が、長孔４９から貫通孔４４
へと通され、そしてボルト５１の下端突出部分にナット
５２が螺合されることで、１個の第１連結部材４１と１
個の第２連結部材４５とが連結される。As described above, one first connecting member 41
Is engaged with the side of the horizontal frame 20, the first connecting member 41
By mounting the lower plate portion 48 of the second connecting member 45 from the upper surface of the connecting plate portion 42 to the upper surface of the top plate portion 21, the long hole 49 communicates with the through hole 44. Then, the fastening connector 50 is actuated between the communicating holes 44 and 49. That is, the bolt 51 is moved from the long hole 49 to the through hole 44.
And the nut 52 is screwed into the lower end protruding portion of the bolt 51 so that the first connecting members 41 and 1
The second connection members 45 are connected.

【００３３】以上の２０〜５２などにより連結構造体５
５の一例が構成される。前記スペーサ手段６０は、図
６、図９〜図１２に示すように、横枠２０に対して横方
向から係脱自在な１個の連結部材６１と、前後枠３０
Ａ，３０Ｂ側に設けられた１枚の連結用板材６５と、必
要に応じて介在される調整用板材６７と、連結部材６１
と連結用板材６５とに亘って作用可能な締付け連結具６
９などにより構成されている。According to the above 20 to 52, the connecting structure 5
5 are configured. As shown in FIGS. 6 and 9 to 12, the spacer means 60 includes one connecting member 61 which can be disengaged from the horizontal frame 20 in the lateral direction, and the front and rear frames 30.
One connecting plate 65 provided on the side of A, 30B, an adjusting plate 67 interposed as necessary, and a connecting member 61
Connecting member 6 operable over the connecting plate 65 and the connecting plate 65
9 and the like.

【００３４】すなわち連結部材６１は、前述した第１連
結部材４１と同様な構成ならびに作用を行うもので、連
結用板部６２、当接部分６３ａが形成された係止用板部
６３、貫通孔６４などにより形成されている。また連結
用板材６５は長方形状であって、左右両端の所定箇所に
はボルト用の長孔６６が貫通して形成され、そして中央
部分が前後枠３０Ａ，３０Ｂの底板部３３の所定箇所に
下方から当接された状態で、予め製作工場において溶接
により結合されている。さらに調整用板材６７には、前
記長孔６６に連通自在な一対の貫通孔６８が形成されて
いる。６９は締付け連結具で、ボルト６９Ａやナット６
９Ｂなどからなる。That is, the connecting member 61 has the same structure and operation as the first connecting member 41 described above, and includes a connecting plate portion 62, a locking plate portion 63 having a contact portion 63a formed therein, and a through hole. 64 or the like. The connecting plate 65 is rectangular in shape, and long holes 66 for bolts are formed at predetermined positions on both left and right ends, and the central portion is located at a predetermined position on the bottom plate portion 33 of the front and rear frames 30A and 30B. In a state of being brought into contact with each other by welding at a manufacturing factory in advance. Further, a pair of through-holes 68 are formed in the adjusting plate 67 so as to communicate with the long holes 66. Reference numeral 69 denotes a fastening connector, which includes a bolt 69A and a nut 6
9B and the like.

【００３５】この実施の形態では、図１〜図５に示すよ
うに、前後方向Ａにおける５箇所の連結部分において、
後端部と中央部との連結部分に連結手段４０が使用さ
れ、残り３箇所のうち、前端を除く２箇所の連結部分に
スペーサ手段６０が使用され、前端は連結用プレート３
４が横枠２０側に連結されている。すなわち、連結手段
４０とスペーサ手段６０は交互に介在されている。そし
て縦枠２０に対する横枠２０の係合位置が変化されるこ
とで、横枠２０に対する前後枠３０Ａ，３０Ｂの配設が
上下方向で傾斜して行われる。In this embodiment, as shown in FIGS. 1 to 5, at five connecting portions in the front-rear direction A,
The connecting means 40 is used at the connecting part between the rear end and the central part, the spacer means 60 is used at two connecting parts except the front end among the remaining three places, and the front end is the connecting plate 3.
4 is connected to the horizontal frame 20 side. That is, the connecting means 40 and the spacer means 60 are interposed alternately. Then, by changing the engagement position of the horizontal frame 20 with the vertical frame 20, the arrangement of the front and rear frames 30A, 30B with respect to the horizontal frame 20 is performed in an up-down direction.

【００３６】このようにして複数本の前後枠３０Ａ，３
０Ｂが上下方向Ｃで傾斜して配設されることで、前後枠
３０Ａ，３０Ｂ群の上方に、上下方向Ｃで傾斜された前
後方向Ａの荷保管経路７０が形成されている。そして、
前後枠３０Ａ，３０Ｂ側に支持案内されて荷保管経路７
０上で前後移動自在な荷支持体が設けられている。In this manner, the plurality of front and rear frames 30A, 3
By arranging 0B inclining in the up-down direction C, a load storage path 70 in the front-back direction A inclined in the up-down direction C is formed above the front and rear frames 30A, 30B group. And
The load storage path 7 is supported and guided by the front and rear frames 30A and 30B.
A load support is provided that can move back and forth on the zero.

【００３７】ここで荷支持体は３台（単数台または複数
台）の台車形式であって、第１荷支持体７１と、第２荷
支持体７２と、第３荷支持体７３とからなる。これら荷
支持体７１〜７３は、サイズや部品の向きなどは多少異
なるが、ほぼ同様であって、平枠状の本体７４と、この
本体７４の四隅下部に設けられた車輪体７５、ならびに
サイドガイドローラ７６と、本体７４の前後端のいずれ
か一方に設けられたストッパー体７７などにより構成さ
れている。Here, the load supports are in the form of three (single or plural) carts, and include a first load support 71, a second load support 72, and a third load support 73. . These load supports 71 to 73 are substantially the same, although they are slightly different in size, component orientation, and the like, and have a flat frame-shaped main body 74, a wheel body 75 provided at the lower four corners of the main body 74, and a side body. It comprises a guide roller 76 and a stopper body 77 provided at one of the front and rear ends of the main body 74.

【００３８】すなわち第１荷支持体７１は、本体７４の
幅ならびに高さが最も大きく構成されている。そして、
車輪体７３を介して長尺前後枠３０Ａ上に載置されると
ともに、そのサイドガイドローラ７６が長尺前後枠３０
Ａの外側面に案内され、さらに後端に設けられたストッ
パー体７７が第２荷支持体７２の後端面に当接自在に構
成されている。なお後端は、前記ストッパー体３６に当
接自在に構成されている。That is, the first load support 71 has the largest width and height of the main body 74. And
It is placed on the long front and rear frame 30A via the wheel body 73, and its side guide rollers 76 are attached to the long front and rear frame 30A.
A stopper body 77 which is guided on the outer side surface of A and further provided at the rear end is configured to be able to abut on the rear end surface of the second load support 72. In addition, the rear end is configured to be able to abut on the stopper body 36.

【００３９】また第２荷支持体７２は、本体７４の幅な
らびに高さが中間として構成されている。そして、車輪
体７３を介して長尺前後枠３０Ａ上に載置されるととも
に、そのサイドガイドローラ７６が長尺前後枠３０Ａの
内側面に案内され、さらに後端に設けられたストッパー
体７７が第３荷支持体７３の後端面に当接自在に構成さ
れている。The second load supporting member 72 is configured such that the width and height of the main body 74 are intermediate. And it is mounted on the long front and rear frame 30A via the wheel body 73, the side guide roller 76 is guided by the inner side surface of the long front and rear frame 30A, and the stopper body 77 provided at the rear end is further provided. The third load support 73 is configured to be able to abut on the rear end face.

【００４０】また第３荷支持体７３は、本体７４の幅な
らびに高さが最も小さく構成されている。そして、車輪
体７３を介して短尺前後枠３０Ｂ上に載置されるととも
に、そのサイドガイドローラ７６が短尺前後枠３０Ｂの
外側面に案内され、さらに前端に設けられたストッパー
体７７が前端の横枠２０の後向き面に当接自在に構成さ
れている。なお後端は、前記ストッパー体３６に当接自
在に構成されている。The third load support 73 has the smallest width and height of the main body 74. And it is mounted on the short front and rear frame 30B via the wheel body 73, the side guide roller 76 is guided by the outer side surface of the short front and rear frame 30B, and the stopper body 77 provided at the front end is located at the side of the front end. The frame 20 is configured to be able to abut on the rearward surface. In addition, the rear end is configured to be able to abut on the stopper body 36.

【００４１】前記荷支持体７１〜７３上や前後枠３０
Ａ，３０Ｂ上にパレット８０が載置自在であり、そして
被保管物（荷）８１はパレット８０に載置されて取り扱
われるように構成されている。On the load supports 71 to 73 and the front and rear frames 30
A pallet 80 can be placed on A, 30B, and an object to be stored (load) 81 is placed on the pallet 80 and handled.

【００４２】以下に、上記した実施の形態における作用
を説明する。枠組体設備１の組み立てを行うに、まず必
要とする縦枠１０間が連結枠１８などを介して連結され
る。そして左右の縦枠１０間に横枠２０が組み立てられ
る。この横枠２０の組み立ては、被係止部材２６を、縦
枠１０における外板部１１や一方の側板部１２などに対
して外嵌させながら、下向きの被係止部２９ａを、前記
縦枠１０における長方形孔１６群に対して外側から通し
て、係止部１１ａ群に対して上方から係合させることで
行える。その際に係止部１１ａ群に対する係合位置は、
所望の傾斜角度を得る上下高さ位置となる。The operation of the above embodiment will be described below. When assembling the frame assembly equipment 1, first, the required vertical frames 10 are connected via a connecting frame 18 or the like. Then, the horizontal frame 20 is assembled between the left and right vertical frames 10. The horizontal frame 20 is assembled by fitting the locked member 26 to the outer plate portion 11 or one of the side plate portions 12 of the vertical frame 10 while attaching the downward locked portion 29 a to the vertical frame 10. It can be performed by passing the group of rectangular holes 16 in 10 from the outside and engaging the group of locking parts 11a from above. At this time, the engagement position with respect to the locking portion 11a group is
The vertical height position at which a desired inclination angle is obtained.

【００４３】次いで前後の横枠２０間に前後枠３０Ａ，
３０Ｂを配設し、連結手段４０やスペーサ手段６０など
を介在して連結させる。ここで前後枠３０Ａ，３０Ｂの
所定箇所には、連結用プレート３４、ストッパー体３
６、第２連結部材４５、連結用板材６５が、溶接などに
より予め設けられている。そして前後枠３０Ａ，３０Ｂ
を配設する前に、前後方向Ａにおける後端部と中央部と
に配設した横枠２０に連結手段４０を使用すべく、また
残り３箇所のうち、前端を除く２箇所の連結部分にスペ
ーサ手段６０を使用すべく、第１連結部材４１や連結部
材６１をセットする。Next, the front and rear frames 30A,
30B is provided and connected via the connecting means 40 and the spacer means 60. Here, the connecting plate 34 and the stopper body 3 are provided at predetermined positions of the front and rear frames 30A and 30B.
6. The second connecting member 45 and the connecting plate 65 are provided in advance by welding or the like. And the front and rear frames 30A, 30B
Before arranging, the connecting means 40 is used on the horizontal frame 20 arranged at the rear end and the central part in the front-rear direction A, and two connecting parts except the front end among the remaining three places are used. The first connecting member 41 and the connecting member 61 are set to use the spacer means 60.

【００４４】すなわち連結手段４０では、横枠２０のス
リット部２５に対して、図１４の実線に示すように、第
１連結部材４１における係止用板部４３の当接部分４３
ａを先行させて斜め上方の横方向（前後方向Ａ）から差
込んだのち、シーソー動させる。これにより図１４の仮
想線に示すように、連結用板部４２を下位天板部分２１
ｂに上方から当接させるとともに、当接部分４３ａを上
位天板部分２１ａに下方から当接させ、以て第１連結部
材４１を、水平状として横枠２０側に係合し得る。また
スペーサ手段６０も同様にして、連結部材６１を、水平
状として横枠２０側に係合し得る。That is, in the connecting means 40, as shown by a solid line in FIG. 14, the abutting portion 43 of the locking plate 43 of the first connecting member 41
After inserting a from the obliquely upper horizontal direction (front-rear direction A), the seesaw is moved. As a result, as shown by a virtual line in FIG.
b, and the contact portion 43a contacts the upper top plate portion 21a from below, so that the first connecting member 41 can be made horizontal and engaged with the horizontal frame 20 side. Similarly, the spacer means 60 can engage the horizontal member 20 with the connecting member 61 in a horizontal state.

【００４５】このように第１連結部材４１や連結部材６
１をセットした状態で、前後枠３０Ａ，３０Ｂを配設さ
せる。すると、連結手段４０の部分では、同一状のレベ
ルに位置している上位天板部分２１ａと連結用板部４２
との上面間に、第２連結部材４５の下板部４８を載置し
得る。そして貫通孔４４に対して長孔４９を連通させた
のち、長孔４９から貫通孔４４へと上方から通したボル
ト５１に、ナット５２を螺合して締付け操作すること
で、１個の第１連結部材４１と、１個の第２連結部材４
５とを連結し得る。As described above, the first connecting member 41 and the connecting member 6
With 1 set, the front and rear frames 30A, 30B are disposed. Then, in the portion of the connecting means 40, the upper top plate portion 21a and the connecting plate portion 42 located at the same level are connected.
The lower plate portion 48 of the second connecting member 45 may be placed between the upper surfaces of the lower and upper surfaces. After the long hole 49 is communicated with the through hole 44, the nut 52 is screwed into a bolt 51 that has passed from the long hole 49 to the through hole 44 from above, and tightened, so that one first One connecting member 41 and one second connecting member 4
5 can be linked.

【００４６】その際に、製作誤差などによる多少の位置
ずれは長孔４９の孔形状により吸収し得る。そして連結
姿勢は、当接部分４３ａと下板部４８とにより上位天板
部分２１ａを上下から挟持することで強固に行えるとと
もに、上位天板部分２１ａと下位天板部分２１ｂとの内
面側段部に当接部分４３ａを引っ掛けることで抜け出し
を防止した状態で行える。At this time, a slight displacement due to a manufacturing error or the like can be absorbed by the shape of the long hole 49. The connecting posture can be firmly held by sandwiching the upper top plate portion 21a from above and below by the contact portion 43a and the lower plate portion 48, and the inner side step between the upper top plate portion 21a and the lower top plate portion 21b. This can be performed in a state where the slip-out is prevented by hooking the contact portion 43a.

【００４７】このような連結手段４０による連結に相前
後して、または同時進行状として、スペーサ手段６０に
よる連結を行う。すなわち、連結部材６１をセットした
状態で、前後枠３０Ａ，３０Ｂを配設させると、スペー
サ手段６０の部分では、同一状のレベルに位置している
上位天板部分２１ａと連結用板部６２との上面間に、連
結用板材６５を対向し得る。The connection by the spacer means 60 is performed before or after the connection by the connection means 40 or simultaneously. In other words, when the front and rear frames 30A and 30B are arranged with the connecting member 61 set, the upper means 21a and the connecting plate 62 located at the same level in the spacer means 60 are located at the same level. May be opposed to each other between the upper surfaces of the connecting plates 65.

【００４８】この場合、上位天板部分２１ａ側と連結用
板材６５との上下位置に隙間が生じない寸法であったと
き、図９、図１０に示すように、上位天板部分２１ａと
連結用板部６２との上面間に、連結用板材６５を直接に
載置し得る。そして貫通孔６４に対して長孔６６を連通
させたのち、長孔６６から貫通孔６４へと上方から通し
たボルト６９Ａに、ナット６９Ｂを螺合して締付け操作
することで、１個の連結部材６１と、１枚の連結用板材
６５とを連結し得る。In this case, if there is no gap between the upper top plate portion 21a and the connecting plate 65 in the vertical position, as shown in FIGS. The connecting plate 65 can be placed directly between the upper surfaces of the plate 62. After the long hole 66 is communicated with the through hole 64, the nut 69 </ b> B is screwed into the bolt 69 </ b> A that has passed from the long hole 66 to the through hole 64 from above to perform a tightening operation. The member 61 and one connection plate 65 can be connected.

【００４９】また、上位天板部分２１ａ側と連結用板材
６５との上下位置に隙間Ｓが生じる寸法であったとき、
図１１、図１２に示すように、上位天板部分２１ａ側と
連結用板材６５との間に調整用板材６７を介在させ、以
て上位天板部分２１ａと上板部４２との上面間に、調整
用板材６７を介して連結用板材６５を載置し得る。そし
て貫通孔６４に対して長孔６６を連通させたのち、長孔
６６から貫通孔６４へと上方から通したボルト６９Ａ
に、ナット６９Ｂを螺合して締付け操作することで、１
個の連結部材６１と１枚の連結用板材６５とを、調整用
板材６７を介在させた状態で連結し得る。When a gap S is formed between the upper top plate portion 21a and the connecting plate 65 in a vertical position,
As shown in FIGS. 11 and 12, an adjustment plate 67 is interposed between the upper plate 21 a and the connection plate 65, so that the upper plate 21 a and the upper plate 42 are disposed between the upper plate 42 and the upper plate 42. The connecting plate 65 can be placed via the adjusting plate 67. Then, after the long hole 66 is communicated with the through hole 64, the bolt 69 </ b> A passed from the long hole 66 to the through hole 64 from above.
Then, the nut 69B is screwed in and tightened to obtain 1
One connecting member 61 and one connecting plate 65 can be connected with the adjusting plate 67 interposed.

【００５０】その際に、製作誤差などによる多少の位置
ずれは長孔６６の孔形状により吸収し得る。そして連結
姿勢は、当接部分６３ａと連結用板材６５とにより上位
天板部分２１ａを上下から挟持することで強固に行える
とともに、上位天板部分２１ａと下位天板部分２１ｂと
の内面側段部に当接部分６３ａを引っ掛けることで抜け
出しを防止した状態で行える。なお調整用板材６７とし
ては、隙間Ｓに相当する厚さの１枚ものが使用される
か、隙間Ｓに相当する厚さになるように複数枚を積み重
ねたものが使用される。At this time, a slight displacement due to a manufacturing error or the like can be absorbed by the shape of the long hole 66. The connecting posture can be firmly held by sandwiching the upper top plate portion 21a from above and below by the contact portion 63a and the connecting plate member 65, and the inner surface step between the upper top plate portion 21a and the lower top plate portion 21b. This can be performed in a state in which slipping out is prevented by hooking the contact portion 63a. As the adjustment plate 67, one having a thickness corresponding to the gap S is used, or a plurality of sheets stacked to have a thickness corresponding to the gap S are used.

【００５１】前述したような連結手段４０やスペーサ手
段６０による連結に相前後して、または同時進行状とし
て、前後枠３０Ａ，３０Ｂの前端部分の連結を行う。す
なわち、前後枠３０Ａ，３０Ｂの前端部分に設けた連結
用プレート３４を横枠２０の側板部２２に当接させる。
そして、側板部２２に形成してある貫通孔２２ａに貫通
孔を連通させたのち、これら貫通孔を利用したボルト・
ナット（連結具の一例）３８を締付け操作することで、
連結用プレート３４と横枠２０とを連結し得る。The front end portions of the front and rear frames 30A and 30B are connected before or after the connection by the connecting means 40 and the spacer means 60 as described above or simultaneously. That is, the connection plate 34 provided at the front end portions of the front and rear frames 30 </ b> A and 30 </ b> B is brought into contact with the side plate 22 of the horizontal frame 20.
Then, after the through holes are communicated with the through holes 22a formed in the side plate portion 22, bolts and bolts using these through holes are used.
By tightening the nut (an example of a connecting tool) 38,
The connection plate 34 and the horizontal frame 20 can be connected.

【００５２】以上により、上下３段（単数段または複数
段）に荷保管経路７０を形成した枠組体設備１の組み立
てを行える。その際に、各部の締め付け力の調整などに
よって、前後枠３０Ａ，３０Ｂを所定の傾斜状にし得
る。組み立てを行った後、各荷保管経路７０にそれぞ
れ、第１荷支持体７１と第２荷支持体７２と第３荷支持
体７３とを組み込むことで使用可能となる。As described above, it is possible to assemble the frame assembly equipment 1 in which the load storage paths 70 are formed in three upper and lower stages (single stage or plural stages). At this time, the front and rear frames 30A and 30B can be formed into a predetermined inclined shape by adjusting the tightening force of each part. After the assembly, the first load support 71, the second load support 72, and the third load support 73 are incorporated into each load storage path 70, respectively, so that the load storage path 70 can be used.

【００５３】このとき第３荷支持体７３は、短尺前後枠
３０Ｂの傾斜によって前端（傾斜下端）側に自動的に移
動し、そしてストッパー体７７が前端の横枠２０の後向
き面に当接して停止している。また第２荷支持体７２
は、長尺前後枠３０Ａの傾斜によって前端側に自動的に
移動し、そしてストッパー体７７が第３荷支持体７３の
後端面に当接することで、第３荷支持体７３の上方に位
置して停止している。さらに第１荷支持体７１は、長尺
前後枠３０Ａの傾斜によって前端側に自動的に移動し、
そしてストッパー体７７が第２荷支持体７２の後端面に
当接することで、第２荷支持体７２の上方に位置して停
止している。これにより図２の上段の荷保管経路７０の
部分に示されるように、各荷支持体７１〜７３を、前端
部分に積み重ね状態で位置し得る。At this time, the third load support 73 is automatically moved to the front end (lower end) by the inclination of the short front and rear frames 30B, and the stopper body 77 contacts the rearward surface of the horizontal frame 20 at the front end. Has stopped. Also, the second load support 72
Is automatically moved to the front end side by the inclination of the long front and rear frame 30A, and is located above the third load support 73 by the stopper body 77 abutting on the rear end face of the third load support 73. And stopped. Further, the first load support 71 is automatically moved to the front end side by the inclination of the long front and rear frame 30A,
When the stopper body 77 contacts the rear end face of the second load support 72, the stopper 77 is positioned above the second load support 72 and stopped. Thereby, as shown in the upper part of the load storage path 70 in FIG. 2, each of the load supports 71 to 73 can be positioned in a stacked state at the front end portion.

【００５４】枠組体設備１へのパレット８０（被保管物
８１）の入庫は、たとえばフォークリフトのフォークを
パレット８０に作用させることにより、荷保管経路７０
の前端部分（始端部分）に位置している第１荷支持体７
１の本体７４上に対して行う。そして２個目の（次の）
パレット８０の入庫は、２個目のパレット８０を荷保管
経路７０の前端部分に入れる際に、２個目のパレット８
０の移動力によって第１荷支持体７１を押し込み移動さ
せたのち、上方が開放された第２荷支持体７２の本体７
４上に対して行う。これにより図２の中間段の荷保管経
路７０の部分に示されるように、２個のパレット８０を
格納した状態にし得る。The pallet 80 (storage object 81) is stored in the frame assembly equipment 1 by, for example, causing a fork of a forklift to act on the pallet 80 so that the load storage path 70 is provided.
Load support 7 located at the front end (start end) of the
1 is performed on the main body 74. And the second (next)
When the second pallet 80 is put into the front end portion of the load storage path 70, the second pallet 80 is stored.
After the first load support 71 is pushed and moved by the moving force of 0, the main body 7 of the second load support 72 whose upper part is opened
4 is performed. Thereby, two pallets 80 can be stored as shown in the portion of the intermediate storage path 70 in FIG.

【００５５】また３個目のパレット８０の入庫は、３個
目のパレット８０を荷保管経路７０の前端部分に入れる
際に、３個目のパレット８０の移動力によって第２荷支
持体７２を押し込み移動させたのち、上方が開放された
第３荷支持体７３の本体７４上に対して行う。そして４
個目のパレット８０の入庫は、４個目のパレット８０を
荷保管経路７０の前端部分に入れる際に、４個目のパレ
ット８０の移動力によって第１荷支持体７１を押し込み
移動させたのち、上方が開放された前後枠３０Ａ，３０
Ｂ上に対して行う。これにより図２の下段の荷保管経路
７０の部分に示されるように、４個のパレット８０を格
納した状態にし得る。When the third pallet 80 is stored in the front end portion of the load storage path 70, the third pallet 80 is moved by the third pallet 80 to move the second load support 72. After the push-in movement, the operation is performed on the main body 74 of the third load support body 73 whose upper part is opened. And 4
When the fourth pallet 80 is put into the front end portion of the load storage path 70, the first pallet 80 is pushed and moved by the moving force of the fourth pallet 80 after the fourth pallet 80 is put in the warehouse. , Front and rear frames 30A, 30 whose upper parts are opened
Perform on B. As a result, as shown in the lower part of the load storage path 70 in FIG. 2, four pallets 80 can be stored.

【００５６】なお、枠組体設備１からのパレット８０の
入庫は上述とは逆動作により行うもので、その際にパレ
ット８０の入庫により前端側のストッパー作用が開放さ
れることで、荷支持体７１〜７３は前端側へ自動的に移
動される。The loading of the pallet 80 from the frame assembly equipment 1 is performed by the reverse operation of the above. At this time, the loading of the pallet 80 releases the stopper function on the front end side, so that the load supporting member 71 is released. 73 are automatically moved to the front end side.

【００５７】次に、本発明の別の実施の形態を、図１
５、図１６に基づいて説明する。すなわち、所定高さの
連結手段４０が、横枠２０に対して横方向から係脱自在
な左右一対（複数個）の第１連結部材４１と、前後枠３
０Ａ，３０Ｂ側に設けられた１個の第２連結部材４５
と、両連結部材４１，４５間に亘って作用可能な締付け
連結具などにより構成されている。Next, another embodiment of the present invention will be described with reference to FIG.
5, will be described with reference to FIG. That is, a pair of left and right (plural) first connecting members 41 which can be disengaged from the horizontal frame 20 in the lateral direction, and the front and rear frames 3
One second connecting member 45 provided on the sides 0A and 30B
And a tightening connection tool that can operate between the two connection members 41 and 45.

【００５８】すなわち一対の第１連結部材４１は、連結
用板部４２と、この連結用板部４２の両側から直角状で
かつ下方に連設された係止用板部４３とにより下方開放
のチャンネル状に形成され、その際に連結用板部４２に
対して係止用板部４３が長く形成されて、その突出部分
によって上向きの当接部分４３ａが形成されている。ま
た上板部４２にはボルト用の螺子孔５３が形成されてい
る。That is, the pair of first connecting members 41 are opened downward by the connecting plate portion 42 and the locking plate portions 43 which are provided at right angles from both sides of the connecting plate portion 42 and are provided continuously below. It is formed in a channel shape. At this time, the locking plate 43 is formed to be longer than the connecting plate 42, and an upward contact portion 43a is formed by the protruding portion. Further, screw holes 53 for bolts are formed in the upper plate portion 42.

【００５９】ここで第１連結部材４１は、横枠２０のス
リット部２５に対して、その当接部分４３ａを先行させ
て斜め上方の横方向（前後方向Ａ）から差込んだのち、
シーソー動させる。これにより第１連結部材４１は、連
結用板部４２を下位天板部分２１ｂに上方から当接させ
るとともに、当接部分４３ａを上位天板部分２１ａに下
方から当接させて水平状となり、以て横枠２０側に係合
される。その際に、上位天板部分２１ａと連結用部４２
との上面は同一状のレベルに位置される。なお第２連結
部材４５は、上述と同様に、上板部４６、側板部４７、
下板部４８、長孔４９などにより形成されている。Here, the first connecting member 41 is inserted into the slit portion 25 of the horizontal frame 20 from an obliquely upper horizontal direction (front-rear direction A) with the contact portion 43a preceding the slit portion 25.
Move seesaw. As a result, the first connecting member 41 causes the connecting plate portion 42 to contact the lower top plate portion 21b from above, and the contact portion 43a to contact the upper top plate portion 21a from below, so that the first connecting member 41 becomes horizontal. And is engaged with the horizontal frame 20 side. At this time, the upper top plate portion 21a and the connecting portion 42
Are located at the same level. The second connecting member 45 includes an upper plate portion 46, a side plate portion 47,
It is formed by a lower plate portion 48, a long hole 49 and the like.

【００６０】前述したように、一対の第１連結部材４１
が横枠２０側に係合された状態で、これら第１連結部材
４１の連結用板部４２間に亘って第２連結部材４５の下
板部４８が載置されることで、螺子孔５３に対して長孔
４９が連通される。そして連通された孔４４，４９間に
ボルト（締付け連結具の一例）５４が作用される。すな
わちボルト５４が、長孔４９を通して螺子孔４４に螺合
されることで、一対の第１連結部材４１と第２連結部材
４５とが連結される。As described above, the pair of first connecting members 41
Is engaged with the horizontal frame 20 side, and the lower plate portion 48 of the second connecting member 45 is placed between the connecting plate portions 42 of the first connecting member 41 so that the screw holes 53 are formed. , A long hole 49 is communicated therewith. Then, a bolt (an example of a fastening connector) 54 acts between the holes 44 and 49 communicated with each other. That is, the bolt 54 is screwed into the screw hole 44 through the elongated hole 49, so that the pair of first connection members 41 and the second connection member 45 are connected.

【００６１】なお、前記スペーサ手段６０側においても
同様にして、横枠２０に対して横方向から係脱自在な左
右一対の連結部材６１が設けられる形式にし得る。上記
した実施の形態のように、第１の部材２０と第２の部材
３０Ａ，３０Ｂとを交差状に配設し、両部材間２０、３
０Ａ，３０Ｂに作用する連結手段４０を、第１の部材２
０に横方向から係脱自在な第１連結部材４１と、第２の
部材３０Ａ，３０Ｂ側に設けた第２連結部材４５と、両
連結部材４１，４５間に亘って作用可能な締付け連結具
５０とにより構成したときには、第１の部材２０に対し
て第１連結部材４１を横方向から係合させたのち、第２
の部材３０Ａ，３０Ｂを交差状に配設して、その第２連
結部材４５を第１連結部材４１に対向させ、そして締付
け連結具５０を締付け操作することで、第１連結部材４
１と第２連結部材４５とを連結し得る。これにより、交
差状に配設した両部材４１，４５を連結手段４５により
連結し得、以て連結構造体を、容易に精度よくかつ強固
に組み立て得る。In the same manner, on the spacer means 60 side, a pair of left and right connecting members 61 which can be disengaged from the horizontal frame 20 in the horizontal direction may be provided. As in the above-described embodiment, the first member 20 and the second members 30A and 30B are arranged in an intersecting manner, and
0A, 30B is connected to the first member 2
0, a first connecting member 41 which can be freely disengaged from the lateral direction, a second connecting member 45 provided on the second member 30A, 30B side, and a fastening connector which can operate between the two connecting members 41, 45. 50, the first connection member 41 is engaged with the first member 20 from the lateral direction, and then the second connection member 41 is engaged with the second member.
The members 30A and 30B are arranged in a cross shape, the second connecting member 45 is opposed to the first connecting member 41, and the tightening operation of the tightening connecting member 50 is performed.
The first and second connection members 45 can be connected. As a result, the two members 41 and 45 arranged in an intersecting manner can be connected by the connecting means 45, so that the connecting structure can be easily, accurately and firmly assembled.

【００６２】上記した実施の形態のように、第１連結部
材４１と第２連結部材４５とを、それぞれ１個とした構
成によると、第２連結部材４５を第１連結部材４１に対
向させて締付け連結具５４を締付け操作することで、１
個の第１連結部材４１と１個の第２連結部材４５とを連
結し得、その際に１個の第１連結部材４１の採用によ
り、組み立ての操作性を向上し得るとともに、第１の部
材２０の強度低下を防止し得る。According to the above-described embodiment, the first connecting member 41 and the second connecting member 45 are each provided as one, and the second connecting member 45 is opposed to the first connecting member 41. By performing the tightening operation of the tightening connector 54, 1
The first connecting members 41 and the second connecting members 45 can be connected to each other. At this time, the operability of assembly can be improved by employing one first connecting member 41, and the first A decrease in the strength of the member 20 can be prevented.

【００６３】上記した実施の形態のように、第１の部材
２０は、天板部２１と側板部２２とを有するとともに、
天板部２１と側板部２２とからなるコーナ部分で長さ方
向の２箇所にスリット部２５を形成し、第１連結部材４
１は、平板状の連結用板部４２と、この連結用板部４２
の両端部分から折曲した一対の係止用板部４３からな
り、両係止用板部４３を、前記スリット部２５に振り分
けて横方向から挿通可能でかつ天板部２１の内面に当接
可能に形成し、第２連結部材４５を、前記天板部２１の
外面から連結用板部４２に亘って当接可能に形成したと
きには、第１の部材２０のスリット部２５に対して、第
１連結部材４１における係止用板部４３を横方向から係
合させることにより、連結用板部４２を天板部２１の外
面に当接させるとともに、係止用板部４３を天板部２１
の内面に当接させ得、以て第１連結部材４１を第１の部
材２０側に係合し得る。As in the above embodiment, the first member 20 has the top plate 21 and the side plate 22,
Slit portions 25 are formed at two locations in the longitudinal direction at the corner portion formed by the top plate portion 21 and the side plate portion 22, and the first connecting member 4
Reference numeral 1 denotes a flat plate-shaped connecting plate portion 42 and the connecting plate portion 42.
And a pair of locking plate portions 43 bent from both end portions of the top plate portion. The two locking plate portions 43 are distributed to the slit portions 25 and can be inserted from the lateral direction and abut against the inner surface of the top plate portion 21. When the second connecting member 45 is formed so as to be able to abut from the outer surface of the top plate portion 21 to the connecting plate portion 42, the second connecting member 45 is formed with respect to the slit portion 25 of the first member 20. 1 By engaging the locking plate portion 43 of the connecting member 41 from the lateral direction, the connecting plate portion 42 is brought into contact with the outer surface of the top plate portion 21 and the locking plate portion 43 is
The first connecting member 41 can be engaged with the first member 20 side.

【００６４】このように第１連結部材４１をセットした
状態で、第２の部材３０Ａ，３０Ｂを交差状に配設する
ことにより、天板部２１と連結用板部４２との間に第２
連結部材４５を対向し得、そして締付け連結具５０を締
付け操作することで、１個の第１連結部材４１と１個の
第２連結部材４５とを連結し得る。その際に連結姿勢
は、係止用板部４３と第２連結部材４５とにより天板部
２１を挟持することで強固に行える。By arranging the second members 30A, 30B in an intersecting manner with the first connecting member 41 set in this manner, the second member 30A, 30B is provided between the top plate 21 and the connecting plate 42.
The connecting members 45 can be opposed to each other, and the one first connecting member 41 and the one second connecting member 45 can be connected by performing a tightening operation on the tightening connector 50. At this time, the connecting posture can be firmly held by sandwiching the top plate 21 between the locking plate 43 and the second connecting member 45.

【００６５】上記した実施の形態のように、第１連結部
材４１を、第１の部材２０に対して斜め上方の横方向か
ら差込んだのち水平状とすることで、第１の部材２０側
に係合するように構成したときには、第１連結部材４１
を、斜め上方の横方向から差込んだのちシーソー動させ
ることにより、その配設を容易にかつ確実に行える。As in the above-described embodiment, the first connecting member 41 is inserted into the first member 20 from an obliquely upper lateral direction and then is made horizontal, so that the first connecting member 41 has the first member 20 side. When configured to engage with the first connecting member 41
Is inserted from a diagonally upper side and then moved by a seesaw, so that the arrangement can be performed easily and reliably.

【００６６】上記した実施の形態のように、連結構造体
５５を備えた枠組体設備１であって、前後方向Ａならび
に左右方向Ｂに間隔を置いて縦枠１０を立設し、左右の
縦枠１０間に横枠２０を設け、前後の横枠２０間に前後
枠３０Ａ，３０Ｂを配設し、縦枠１０に上下方向の所定
間隔置きに係止部１１ａを形成し、横枠２０に係止部１
１ａに係合可能な被係止部２９ａを設けた構成によっ
て、目的とするレベルの係止部１１ａに被係止部２９ａ
を係合させるだけで、縦枠１０間に横枠２０を設け得、
そして、横枠２０に対する前後枠３０Ａ，３０Ｂの配設
は、連結構造体５５の連結手段４０を介在して連結する
ことで、上下方向Ｃにおいて所定の角度で傾斜して行
え、以て枠組体設備１の組み立ては、溶接など行うこと
なく、容易に精度よく行える。As in the above embodiment, the frame assembly equipment 1 provided with the connecting structure 55 is provided with the vertical frames 10 erected at intervals in the front-rear direction A and the left-right direction B, The horizontal frame 20 is provided between the frames 10, the front and rear frames 30A and 30B are disposed between the front and rear horizontal frames 20, and the locking portions 11a are formed on the vertical frame 10 at predetermined intervals in the vertical direction. Locking part 1
1a, the locked portion 29a can be engaged with the locking portion 11a at the target level.
Only by engaging the horizontal frame 20 between the vertical frames 10,
The arrangement of the front and rear frames 30A and 30B with respect to the horizontal frame 20 can be performed at a predetermined angle in the vertical direction C by connecting the connecting structures 40 with the connecting means 40 interposed therebetween. The assembly of the equipment 1 can be easily and accurately performed without performing welding or the like.

【００６７】上記した実施の形態のように、前後枠３０
Ａ，３０Ｂを左右において複数本設け、前後枠３０Ａ，
３０Ｂ群の上方に、上下方向Ｃで傾斜した前後方向Ａの
荷保管経路７０を形成したことで、荷保管経路７０によ
り枠組体設備１を荷保管用の流動棚などに採用し得る。As in the above-described embodiment, the front and rear frames 30
A, 30B are provided on the left and right, and the front and rear frames 30A,
By forming the load storage path 70 in the front-rear direction A inclined in the up-down direction C above the group 30B, the frame storage facility 1 can be adopted as a flow shelf for load storage by the load storage path 70.

【００６８】上記した実施の形態では、連結構造体５５
として、枠組体設備１における横枠２０と前後枠３０
Ａ，３０Ｂとの連結に連結手段４０が使用された形式が
示されているが、他の設備の一対の構成部材を第１の部
材や第２の部材として、連結手段４０が使用された連結
構造体５５の形式などであってもよい。In the above embodiment, the connecting structure 55
The horizontal frame 20 and the front and rear frames 30 in the frame assembly equipment 1
Although the type in which the connecting means 40 is used for connection with A and 30B is shown, a connection in which the connecting means 40 is used by using a pair of constituent members of other equipment as a first member and a second member. The form of the structure 55 may be used.

【００６９】上記した実施の形態では、第１連結部材４
１を、第１の部材に対して斜め上方の横方向から差込ん
だのち水平状とすることで、第１の部材側に係合させる
構成としているが、これは水平状の横方向から差込むこ
とで、第１の部材側に係合させる構成などであってもよ
い。In the above embodiment, the first connecting member 4
1 is inserted into the first member from an obliquely upper lateral direction and then made horizontal so as to engage with the first member, but this is different from the horizontal lateral direction. In this case, the first member may be engaged with the first member.

【００７０】上記した実施の形態では、横枠２０に対す
る前後枠３０Ａ，３０Ｂの配設を、所定高さの連結手段
４０とスペーサ手段６０とを交互に介在させることによ
って上下方向Ｃにおいて所定の角度で傾斜して行ってお
り、これによると、目的とするレベルの係止部１１ａに
被係止部２９ａを係合させて縦枠１０間に横枠２０を設
ける形式でありながら、前後枠３０Ａ，３０Ｂ側に掛か
る上下方向Ｃの荷重を、交互に介在した連結手段４０と
スペーサ手段６０を介して縦枠１０群側で均等状に支持
し得るとともに、その組み立ては精度良くかつ容易に行
える。In the above-described embodiment, the arrangement of the front and rear frames 30A, 30B with respect to the horizontal frame 20 is performed by alternately interposing the connecting means 40 having a predetermined height and the spacer means 60 at a predetermined angle in the vertical direction C. According to this, according to the type, the locked portion 29a is engaged with the locking portion 11a of the target level to provide the horizontal frame 20 between the vertical frames 10, but the front and rear frames 30A are formed. , 30B can be uniformly supported on the side of the vertical frame group 10 via the connecting means 40 and the spacer means 60 interposed alternately, and the assembly can be performed accurately and easily.

【００７１】上記した実施の形態では、連結手段４０
を、前後枠３０Ａ，３０Ｂの後端部分と横枠２０との連
結に使用し、前後枠３０Ａ，３０Ｂの中間部と横枠２０
との連結に、連結手段４０とスペーサ手段６０とのいず
れかを使用しており、これによると、前後枠３０Ａ，３
０Ｂに作用される傾斜下方側への荷重を、後端部分の連
結手段４０により確実に受け止め得、そして中間部分の
連結は、主として上下方向Ｃの荷重を考慮して隙間Ｓな
どが生じないように、連結手段４０かスペーサ手段６０
を選択して確実に行える。In the above embodiment, the connecting means 40
Is used to connect the rear end portions of the front and rear frames 30A and 30B to the horizontal frame 20, and an intermediate portion between the front and rear frames 30A and 30B and the horizontal frame 20.
The connecting means 40 and the spacer means 60 are used for connection with the front and rear frames 30A, 3A.
The load applied to the lower side of the inclination applied to the lower part 0B can be reliably received by the connecting means 40 of the rear end portion, and the connection of the middle portion is designed such that the gap S is not generated mainly in consideration of the load in the vertical direction C. The connecting means 40 or the spacer means 60
Can be surely selected.

【００７２】上記した実施の形態では、前後枠３０Ａ，
３０Ｂ側に支持案内されて前後移動自在な荷支持体７１
〜７３を設けており、これによると、荷支持体７１〜７
３に荷を支持させることで、枠組体設備１を荷保管用の
流動棚などに採用し得るとともに、荷支持体７１〜７３
の移動によって前後方向Ａの複数箇所で効率良く荷を保
管し得る。In the above-described embodiment, the front and rear frames 30A,
A load support 71 supported and guided by the 30B side and movable back and forth.
To 73, and according to this, the load supports 71 to 7
3 to support the load, the frame assembly equipment 1 can be used as a flow shelf or the like for storing loads, and the load supports 71 to 73 can be used.
, The load can be efficiently stored at a plurality of locations in the front-rear direction A.

【００７３】上記した実施の形態では、前後方向Ａにお
いて５本の縦枠１０が、中間の１箇所を短い間隔ｌとし
かつ残りの３箇所を長い間隔Ｌとして、それぞれ間隔を
置いて立設されているが、これは前後方向Ａにおいて、
全て同様な間隔を置いて立設された形式であってもよ
く、また立設本数は、規模などに応じて任意に複数本と
なる。In the above-described embodiment, five vertical frames 10 are erected in the front-rear direction A with a short interval 1 at one intermediate position and a long interval L at the remaining three positions. However, in the front-back direction A,
All of them may be in the form of standing up at the same interval, and the number of standing up may be arbitrarily plural according to the scale or the like.

【００７４】上記した実施の形態では、左右方向Ｂにお
いて２本の縦枠１０が、所定の幅間隔Ｗを置いて立設さ
れているが、これは左右方向Ｂにおいて３本以上（複数
本）の縦枠１０が立設された形式であってもよく、この
場合には、複数の荷保管経路７０が左右方向Ｂにおいて
併設された構成にし得る。In the above-described embodiment, two vertical frames 10 are erected in the left-right direction B with a predetermined width interval W, but this is three or more (plural) in the left-right direction B. In this case, a plurality of load storage paths 70 may be provided side by side in the left-right direction B.

【００７５】上記した実施の形態では、外板部１１にお
ける長方形孔１６の底部を形成する部分によって係止部
１１ａが形成され、そして外側板部２９の端から下向き
の被係止部２９ａが一体に連設された構成とされている
が、これは係止部と被係止部との形状が逆となった構成
など、種々な構成が可能となる。In the above-described embodiment, the locking portion 11a is formed by the portion forming the bottom of the rectangular hole 16 in the outer plate portion 11, and the locked portion 29a facing downward from the end of the outer plate portion 29 is integrated. However, various configurations are possible, such as a configuration in which the shapes of the locking portion and the locked portion are reversed.

【００７６】上記した実施の形態では、連結手段４０と
スペーサ手段６０とが交互に介在されているが、これは
１個または少数の連結手段４０のみが使用され、スペー
サ手段６０が省略された形式や、全てに連結手段４０が
使用された形式などであってもよい。In the above-described embodiment, the connecting means 40 and the spacer means 60 are alternately interposed. However, only one or a small number of connecting means 40 are used, and the spacer means 60 is omitted. Or, a form in which the connecting means 40 is used for all may be used.

【００７７】上記した実施の形態では、荷保管経路７０
が上下３段に形成された構成が示されているが、これは
荷保管経路７０が１段のみの構成、３段以外の複数段の
構成などであってもよい。In the above embodiment, the load storage route 70
Are shown in the upper and lower three stages, but this may be a configuration in which the load storage path 70 has only one stage, and a configuration in which a plurality of stages other than the three stages are provided.

【００７８】上記した実施の形態では、荷保管経路７０
に荷支持体７１〜７３が組み込まれた形式が示されてい
るが、これはフリーローラコンベヤが組み込まれた形式
などであってもよい。In the above embodiment, the load storage route 70
, The type in which the load supports 71 to 73 are incorporated is shown, but this may be a type in which a free roller conveyor is incorporated.

【００７９】上記した実施の形態では、荷保管経路７０
に３台の荷支持体７１〜７３が組み込まれた形式が示さ
れているが、この荷支持体の台数は保管規模などに応じ
て任意に設定される。その際に、前後枠３０Ａ，３０Ｂ
の数は増減されることになる。In the above embodiment, the load storage route 70
3 shows a form in which three load supports 71 to 73 are incorporated, but the number of the load supports is arbitrarily set according to the storage scale or the like. At that time, the front and rear frames 30A, 30B
Will be increased or decreased.

【００８０】上記した実施の形態では、荷保管経路７０
に３台の荷支持体７１〜７３が組み込まれ、前端側から
荷を後入れ先出しする形式が示されているが、これは、
たとえばフリーローラコンベヤの採用により、後端側か
ら荷を入れて先入れ先出しとした形式などであってもよ
い。In the above embodiment, the load storage route 70
In this case, three load supports 71 to 73 are incorporated, and the load is loaded in and out from the front end side.
For example, by adopting a free roller conveyor, a type in which a load is put in from the rear end side and a first-in first-out may be adopted.

【００８１】[0081]

【発明の効果】上記した本発明の請求項１によると、第
１の部材に対して第１連結部材を横方向から係合させた
のち、第２の部材を交差状に配設して、その第２連結部
材を第１連結部材に対向させ、そして締付け連結具を締
付け操作することで、第１連結部材と第２連結部材とを
連結できる。これにより、交差状に配設した第１の部材
と第２の部材とを連結手段により連結することができ、
以て連結構造体を、容易に精度よくかつ強固に組み立て
ることができる。According to the first aspect of the present invention, after the first connecting member is engaged with the first member from the lateral direction, the second member is disposed in an intersecting manner. The first connection member and the second connection member can be connected by causing the second connection member to face the first connection member and performing a tightening operation on the tightening connection tool. Thereby, the first member and the second member arranged in a cross shape can be connected by the connecting means,
Thus, the connecting structure can be easily and accurately assembled firmly.

【００８２】また上記した本発明の請求項２によると、
第２連結部材を第１連結部材に対向させて締付け連結具
を締付け操作することで、１個の第１連結部材と１個の
第２連結部材とを連結でき、その際に１個の第１連結部
材の採用により、組み立ての操作性を向上できるととも
に、第１の部材の強度低下を防止できる。According to the second aspect of the present invention,
The first connecting member and one second connecting member can be connected by operating the tightening connecting member with the second connecting member facing the first connecting member, and at this time, one first connecting member can be connected. By employing the one connecting member, the operability of assembly can be improved, and the strength of the first member can be prevented from lowering.

【００８３】そして上記した本発明の請求項３による
と、第１の部材のスリット部に対して、第１連結部材に
おける係止用板部を横方向から係合させることにより、
連結用板部を天板部の外面に当接できるとともに、係止
用板部を天板部の内面に当接でき、以て第１連結部材を
第１の部材側に係合できる。このように第１連結部材を
セットした状態で、第２の部材を交差状に配設すること
により、天板部と連結用板部との間に第２連結部材を対
向でき、そして締付け連結具を締付け操作することで、
１個の第１連結部材と１個の第２連結部材とを連結でき
る。その際に連結姿勢は、係止用板部と第２連結部材と
により天板部を挟持することで強固に行うことができ
る。According to the third aspect of the present invention, the locking plate of the first connecting member is engaged with the slit of the first member from the lateral direction.
The connecting plate can be in contact with the outer surface of the top plate, and the locking plate can be in contact with the inner surface of the top plate, so that the first connecting member can be engaged with the first member. By arranging the second member in an intersecting manner with the first connecting member set in this way, the second connecting member can be opposed between the top plate portion and the connecting plate portion, and the tightening connection By tightening the tool,
One first connecting member and one second connecting member can be connected. At that time, the connection posture can be firmly performed by sandwiching the top plate portion between the locking plate portion and the second connection member.

【００８４】さらに上記した本発明の請求項４による
と、第１の部材に対して、第１連結部材を斜め上方の横
方向から差込んだのち、シーソー動させることにより、
第１連結部材を水平状として第１の部材側に係合でき、
以て第１連結部材の配設を容易にかつ確実に行うことが
できる。According to the fourth aspect of the present invention, the first connecting member is inserted into the first member from an obliquely upper side, and then the seesaw is moved.
The first connecting member can be engaged with the first member side by making the first connecting member horizontal,
Thus, the first connecting member can be easily and reliably arranged.

【００８５】しかも上記した本発明の請求項５による
と、目的とするレベルの係止部に被係止部を係合させる
だけで、縦枠間に横枠を設けることができ、そして横枠
に対する前後枠の配設は、連結構造体の連結手段を介在
して連結することで行うことができ、以て枠組体設備の
組み立ては、溶接など行うことなく、容易に精度よく行
うことができる。Further, according to the fifth aspect of the present invention, a horizontal frame can be provided between the vertical frames only by engaging the locked portion with the locking portion of the target level. Arrangement of the front and rear frames with respect to can be performed by connecting through the connecting means of the connecting structure, so that the assembly of the frame assembly equipment can be easily and accurately performed without performing welding or the like. .

【００８６】また上記した本発明の請求項６によると、
上下方向で傾斜した前後方向の荷保管経路により、枠組
体設備を荷保管用の流動棚などに採用できる。According to the sixth aspect of the present invention,
With the load storage path in the front-back direction inclined in the up-down direction, the frame assembly equipment can be adopted as a flow shelf for storing loads.

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

【図１】本発明の実施の形態を示し、連結構造体を備え
た枠組体設備における後部の連結手段部分の分解斜視図
である。FIG. 1 shows an embodiment of the present invention and is an exploded perspective view of a rear connecting means portion of a frame assembly facility having a connecting structure.

【図２】同連結構造体を備えた枠組体設備の縦断側面図
である。FIG. 2 is a vertical sectional side view of a frame assembly facility provided with the connection structure.

【図３】同連結構造体を備えた枠組体設備の正面図であ
る。FIG. 3 is a front view of a frame assembly facility provided with the connection structure.

【図４】同連結構造体を備えた枠組体設備の平面図であ
る。FIG. 4 is a plan view of a frame assembly facility provided with the connection structure.

【図５】同連結構造体を備えた枠組体設備の荷支持体を
除去した状態での平面図である。FIG. 5 is a plan view of the frame assembly equipment provided with the connection structure with the load supporter removed.

【図６】同連結構造体を備えた枠組体設備の要部の一部
切り欠き正面図である。FIG. 6 is a partially cutaway front view of a main part of the frame assembly equipment provided with the connection structure.

【図７】同連結構造体を備えた枠組体設備における中間
部の連結手段部分の分解斜視図である。FIG. 7 is an exploded perspective view of a connecting means portion at an intermediate portion in the frame assembly equipment provided with the connecting structure.

【図８】同連結構造体を備えた枠組体設備の連結手段部
分を示し、（ａ）は正面図、（ｂ）は側面図である。8A and 8B show a connecting means portion of a frame assembly facility provided with the connecting structure, wherein FIG. 8A is a front view and FIG. 8B is a side view.

【図９】同連結構造体を備えた枠組体設備におけるスペ
ーサ手段部分の分解斜視図である。FIG. 9 is an exploded perspective view of a spacer means portion in the frame assembly equipment provided with the connecting structure.

【図１０】同連結構造体を備えた枠組体設備のスペーサ
手段部分を示し、（ａ）は一部切り欠き正面図、（ｂ）
は側面図である。10A and 10B show a spacer means portion of the frame assembly equipment provided with the connecting structure, wherein FIG. 10A is a partially cutaway front view, and FIG.
Is a side view.

【図１１】同連結構造体を備えた枠組体設備における調
整用板材を介在したスペーサ手段部分の分解斜視図であ
る。FIG. 11 is an exploded perspective view of a spacer means portion interposed with an adjusting plate member in the frame assembly equipment provided with the connection structure.

【図１２】同連結構造体を備えた枠組体設備における調
整用板材を介在したスペーサ手段部分を示し、（ａ）は
正面図、（ｂ）は側面図である。FIGS. 12A and 12B are a front view and a side view, respectively, showing a spacer means portion with an adjusting plate member interposed therebetween in the frame assembly equipment having the connection structure.

【図１３】同連結構造体を備えた枠組体設備における係
合構成を示す縦断側面図である。FIG. 13 is a longitudinal sectional side view showing an engagement configuration in a frame assembly facility provided with the connection structure.

【図１４】同連結構造体を備えた枠組体設備における連
結部材の係合状態を示す側面図である。FIG. 14 is a side view showing an engagement state of a connection member in a frame assembly facility provided with the connection structure.

【図１５】本発明の別の実施の形態を示し、連結構造体
を備えた枠組体設備における後部の連結手段部分の分解
斜視図である。FIG. 15 shows another embodiment of the present invention, and is an exploded perspective view of a rear connecting means portion in a frame assembly facility provided with a connecting structure.

【図１６】同連結構造体を備えた枠組体設備の連結手段
部分を示し、（ａ）は正面図、（ｂ）は側面図である。16 (a) is a front view and FIG. 16 (b) is a side view showing a connecting means portion of the frame assembly equipment provided with the connecting structure.

【符号の説明】[Explanation of symbols]

１ 枠組体設備 １０ 縦枠 １１ａ 係止部 １６ 長方形孔 ２０ 横枠（第１の部材） ２１ 天板部 ２１ａ 上位天板部分 ２１ｂ 下位天板部分 ２２ 側板部 ２５ スリット部 ２６ 被係止部材 ２９ａ 被係止部 ３０Ａ 長尺前後枠（第２の部材） ３０Ｂ 短尺前後枠（第２の部材） ３４ 連結用プレート ３８ ボルト・ナット（連結具） ４０ 連結手段 ４１ 第１連結部材 ４２ 連結用板部 ４３ 係止用板部 ４３ａ 当接部分 ４５ 第２連結部材 ５０ 締付け連結具 ５４ ボルト（締付け連結具） ５５ 連結構造体 ６０ スペーサ手段 ６１ 連結部材 ６２ 連結用板部 ６３ 係止用板部 ６３ａ 当接部分 ６５ 連結用板材 ６７ 調整用板材 ６９ 締付け連結具 ７０ 荷保管経路 ７１ 第１荷支持体 ７２ 第２荷支持体 ７３ 第３荷支持体 ８０ パレット ８１ 被保管物（荷） Ａ 前後方向 Ｂ 左右方向 Ｃ 上下方向 ｌ 短い間隔 Ｌ 長い間隔 Ｗ 所定の幅間隔 Ｓ 隙間 DESCRIPTION OF SYMBOLS 1 Frame assembly equipment 10 Vertical frame 11a Locking part 16 Rectangular hole 20 Horizontal frame (1st member) 21 Top plate part 21a Upper top plate part 21b Lower top plate part 22 Side plate part 25 Slit part 26 Locked member 29a Covered Locking portion 30A Long front / rear frame (second member) 30B Short front / rear frame (second member) 34 Connection plate 38 Bolt / nut (connector) 40 Connection means 41 First connection member 42 Connection plate 43 Locking plate portion 43a Contact portion 45 Second connecting member 50 Tightening connector 54 Bolt (Tightening connector) 55 Connection structure 60 Spacer means 61 Connection member 62 Connection plate portion 63 Locking plate portion 63a Contact portion 65 Connection plate 67 Adjustment plate 69 Tightening connector 70 Load storage path 71 First load support 72 Second load support 73 Third load support 80 Pallet 81 Stored object ( ) A longitudinal direction B transverse direction C vertical direction l short interval L long intervals W predetermined width spacing S clearance

───────────────────────────────────────────────────── フロントページの続き Ｆターム(参考） 3F022 EE02 FF12 3J039 AA06 BB02 GA07 JA14  ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3F022 EE02 FF12 3J039 AA06 BB02 GA07 JA14

Claims (6)

【特許請求の範囲】[Claims] 【請求項１】 第１の部材と第２の部材とが交差状に配
設され、両部材間に作用される連結手段が、第１の部材
に横方向から係脱自在な第１連結部材と、第２の部材側
に設けられた第２連結部材と、両連結部材間に亘って作
用可能な締付け連結具とにより構成されていることを特
徴とする連結構造体。1. A first connecting member in which a first member and a second member are arranged in an intersecting manner, and a connecting means acting between the two members is detachable from the first member in a lateral direction. And a second connecting member provided on the side of the second member, and a fastening connector that can operate between the two connecting members. 【請求項２】 第１連結部材と第２連結部材とが、それ
ぞれ１個であることを特徴とする請求項１記載の連結構
造体。2. The connection structure according to claim 1, wherein each of the first connection member and the second connection member is one. 【請求項３】 第１の部材は、天板部と側板部とを有す
るとともに、天板部と側板部とからなるコーナ部分で長
さ方向の複数箇所にスリット部が形成され、第１連結部
材は、平板状の連結用板部と、この連結用板部の両端部
分から折曲された一対の係止用板部からなり、両係止用
板部は前記スリット部に振り分けて横方向から挿通可能
でかつ天板部の内面に当接可能に形成され、第２連結部
材は、前記天板部の外面から連結用板部に亘って当接可
能に形成されていることを特徴とする請求項１または２
記載の連結構造体。3. The first member has a top plate and a side plate, and slits are formed at a plurality of longitudinal locations at corners formed by the top plate and the side plate. The member is composed of a flat connecting plate portion and a pair of locking plate portions bent from both end portions of the connecting plate portion. And the second connecting member is formed so as to be able to abut from the outer surface of the top plate portion to the connecting plate portion. Claim 1 or 2
The connecting structure as described in the above. 【請求項４】 第１連結部材は、第１の部材に対して斜
め上方の横方向から差込んだのち水平状とすることで、
第１の部材側に係合されることを特徴とする請求項１〜
３のいずれかに記載の連結構造体。4. The first connecting member is horizontally inserted after being obliquely inserted into the first member from a lateral direction.
The first member is engaged with the first member.
4. The connection structure according to any one of 3. 【請求項５】 請求項１〜４のいずれかに記載の連結構
造体を備えた枠組体設備であって、前後方向ならびに左
右方向に間隔を置いて縦枠が立設され、左右の縦枠間に
横枠が設けられ、前後の横枠間に前後枠が配設され、縦
枠には上下方向の所定間隔置きに係止部が形成され、横
枠には前記係止部に係合可能な被係止部が設けられ、横
枠に対する前後枠の連結が連結構造体により行われるこ
とを特徴とする連結構造体を備えた枠組体設備。5. A frame assembly facility comprising the connecting structure according to claim 1, wherein vertical frames are erected at intervals in the front-rear direction and the left-right direction, and the left and right vertical frames are provided. A horizontal frame is provided between the front and rear horizontal frames, and front and rear frames are disposed between the front and rear horizontal frames. Locking portions are formed in the vertical frame at predetermined intervals in the vertical direction, and the horizontal frames are engaged with the locking portions. A frame assembly equipment provided with a connection structure, wherein a possible locked portion is provided, and the connection of the front and rear frames to the horizontal frame is performed by the connection structure. 【請求項６】 前後枠は左右において複数本であって、
前後枠群の上方に、上下方向で傾斜された前後方向の荷
保管経路が形成されていることを特徴とする請求項５記
載の連結構造体を備えた枠組体設備。6. The front and rear frames are plural on right and left,
The frame assembly equipment provided with the connecting structure according to claim 5, wherein a load storage path in the front-back direction inclined in the vertical direction is formed above the front-back frame group.