JP5058001B2 - Elevator parts transport container - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lift component carrying container for improving the working efficiency of storing and picking out lift components while shortening a working time for storing and picking out the lift components. <P>SOLUTION: A second connection arm member 23 and a fourth connection arm member are each lifted up at one end and turned with a bolt 33 as a rotational axis. The second connection arm member 23 and the fourth connection arm member are each displaced from a connection position to a maximum open position, and a latch 34 is fitted into a holding groove 16a to hold each of second connection arm member 23 and the fourth connection arm member at the maximum open position. With the turn of the second connection arm member 23 and the fourth connection arm member, an working opening X is formed in the upper part of a container body 1. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to an elevator parts transport container for transporting elevator parts used in elevators such as passenger conveyors or elevators including escalators or moving walkways.

  In a conventional container for transporting elevator parts, a top frame that forms the top surface of the container body can be attached to and detached from a container body that is an open container (flat rack container). A frame is provided. Further, a component fixing lower frame is provided on the upper surface of the floor portion of the container body, and the lower end of the elevator component is fitted into the component fixing lower frame. Then, the top frame is attached to the container main body, and the upper frame for component fixing is fitted to the upper end of the elevator part, so that the elevator part is pressed downward from above and the elevator part is fixed in the container main body. .

  In addition, there exists a thin plate conveyance container as shown in patent document 1 as a literature well-known technique similar to the above conventional elevator component conveyance containers. In this thin plate transport container, the thin plate is fixed in the container main body by fitting the thin plate to a pair of component fixing side frames provided on the inner wall side portion of the container main body which is a closed container (dry container). .

JP 2004-331157 A

  In the conventional elevator parts transport container as described above, when the elevator parts are accommodated in the container body (when packing) and when the elevator parts are taken out from the container body (when unpacked), the top frame and It is necessary to completely remove the upper part fixing frame from the container body. In addition, it is necessary to secure a place for the removed top frame and component fixing upper frame. These factors complicate the work of attaching and detaching the top frame and the component fixing upper frame, and the time required for the work has increased.

  The present invention has been made in order to solve the above-described problems, and improves the working efficiency of the lifting / lowering parts storage / removal work and can shorten the time required for the lifting / lowering parts transporting container. The purpose is to provide.

  The container for transporting elevator parts according to the present invention is a base part for transporting elevator parts used in the elevator, and is provided upright on the base part, and is disposed at intervals so as to be paired with each other. 1 vertical frame, 2nd vertical frame, a component lower end fixing portion which is provided between the first vertical frame and the second vertical frame and is fitted on the lower end of the elevator part, and an elevator part The upper end of the component can be fitted to the upper end fixing part of the component and the second vertical frame. The upper end of the component is fixed to the bottom, and the first vertical frame and the second vertical frame are connected to each other. A connecting position for fixing the elevator parts to the base part by sandwiching the elevator parts from above and below by the upper part fixing part and the lower part fixing part of the elevator, facing the lower part fixing part of the parts, and a first vertical frame and a second vertical frame To remove and connect the elevator parts to and from the parts bottom fixing part. Between an open position, it is displaceable connection portion between the second vertical frame as a fulcrum, in which a connecting arm portion which is held in its position when disposed in the maximum opening position.

  In the elevator parts transporting container according to the present invention, the connecting arm portion can be displaced from one of the connecting position and the maximum opening position to the other using the connecting portion of the second vertical frame as a fulcrum, and the connecting arm portion is at the maximum opening position. Since the connecting arm is held in that position when it is placed, it is not necessary to attach or detach the upper frame for fixing parts and the top frame as in the conventional container for conveying elevator parts. The work efficiency of the take-out work can be improved and the time required for the work can be shortened.

The best mode for carrying out the present invention will be described below with reference to the drawings.
Embodiment 1 FIG.
1 is a perspective view showing a container for transporting elevator parts according to Embodiment 1 of the present invention.
In FIG. 1, a container main body 1 is an open container (flat rack container). The container main body 1 includes first to fourth columnar bodies 2 to 5, first to fourth column lower end connecting member assemblies 6 to 9, first to fourth column upper end connecting members 10 to 13, 1 to 4 component fixing vertical frames 14 to 17, a component upper end fixing mechanism 18, and a component lower end fixing mechanism 19.

  The vertical skeleton of the container body 1 is formed by the first to fourth columnar bodies 2 to 5 and the first to fourth component fixing vertical frames 14 to 17. Furthermore, the skeleton at the bottom of the container main body 1 is formed by first to fourth pillar lower end connecting member assemblies 6 to 9. Moreover, the skeleton of the upper part of the container main body 1 is formed by the first to fourth pillar upper end connecting members 10 to 13.

  The first to fourth columnar bodies 2 to 5 and the first to fourth column upper end connecting members 10 to 13 are all formed of a square steel pipe. Each of the first to fourth column lower end connecting member assemblies 6 to 9 is formed by combining a plurality of square steel pipes. Each of the first to fourth columnar bodies 2 to 5 is disposed upright at the four corners of the rectangle so as to form a rectangular space with a horizontal cross section. Moreover, the 1st-4th columnar bodies 2-5 are arrange | positioned so that it may mutually become parallel.

  The lower end portion of the first columnar body 2 and the lower end portion of the second columnar body 3 are connected to each other by the first column lower end connecting member assembly 6. The upper end portion of the first columnar body 2 and the upper end portion of the second columnar body 3 are connected to each other by the first column upper end connecting member 10. The lower end of the second columnar body 3 and the lower end of the third columnar body 4 are connected to each other by the second column lower end connecting member assembly 7. The upper end portion of the second columnar body 3 and the upper end portion of the third columnar body 4 are connected to each other by the second column upper end connecting member 11.

  The lower end portion of the third columnar body 4 and the lower end portion of the fourth columnar body 5 are connected to each other by the third column lower end connecting member assembly 8. The upper end portion of the third columnar body 4 and the upper end portion of the fourth columnar body 5 are connected to each other by the third column upper end connecting member 12. The lower end of the fourth columnar body 5 and the lower end of the first columnar body 2 are connected to each other by a fourth column lower end connecting member assembly 9. The upper end portion of the fourth columnar body 5 and the upper end portion of the first columnar body 2 are connected to each other by a fourth column upper end connecting member 13.

  The first to fourth component fixing vertical frames 14 to 17 are arranged in parallel to the first to fourth columnar bodies 2 to 5. The first component fixing vertical frame 14 and the fourth component fixing vertical frame 17 are arranged at intervals in the longitudinal direction of the first column upper end connecting member 13 so as to be paired with each other. The second component fixing vertical frame 15 and the third component fixing vertical frame 16 are arranged at intervals in the longitudinal direction of the second column upper end connecting member 11 so as to be paired with each other. Therefore, the first component fixing vertical frame 14 and the second component fixing vertical frame 15 constitute a first vertical frame, and the third component fixing vertical frame 16 and the fourth component fixing vertical frame 17 are: A second vertical frame is formed.

  The first component fixing vertical frame 14 and the second component fixing vertical frame 15 are arranged at intervals in the longitudinal direction of the first column upper end connecting member 10. The first column lower end connecting member assembly 6 and the first column upper end connecting member 10 are connected to each other by the first component fixing vertical frame 14 and the second component fixing vertical frame 15. The third component fixing vertical frame 16 and the fourth component fixing vertical frame 17 are arranged at intervals in the longitudinal direction of the first column upper end connecting member 12. The third column lower end connecting member assembly 8 and the third column upper end connecting member 12 are connected to each other by the third component fixing vertical frame 16 and the fourth component fixing vertical frame 17.

  A first abutting member 20 is attached to a position spaced downward from a connection location (upper end portion) of the first column upper end connecting member 10 of the first component fixing vertical frame 14. A second abutting member 21 is attached at a position spaced downward from a connection location (upper end portion) of the second component fixing vertical frame 15 with the first column upper end connecting member 10. The height positions of the first contact member 20 and the second contact member 21 are the same.

  The component upper end fixing mechanism 18 includes first to fourth connecting arm members 22 to 25, and a first component fixing upper frame 26 and a second component fixing upper frame 27 as component upper end fixing portions. Each of the first to fourth connecting arm members 22 to 25 is configured by an L-shaped angle. The first connecting arm member 22 is disposed along the longitudinal direction of the first column upper end connecting member 10. Further, the bottom surface portion of the first connecting arm member 22 is in contact with the upper surface portions of the first contact member 20 and the second contact member 21.

  Further, one end portion of the first connecting arm member 22 in the longitudinal direction is connected to one end portion of the second connecting arm member 23 in the longitudinal direction. The second connecting arm member 23 is disposed along the longitudinal direction of the second column upper end connecting member 11. The other end of the second connecting arm member 23 in the longitudinal direction is connected to one end of the third connecting arm member 24 in the longitudinal direction. The third connecting arm member 24 is disposed along the longitudinal direction of the third column upper end connecting member 12. The other end portion of the third connecting arm member 24 in the longitudinal direction is connected to one end portion of the fourth connecting arm member 25 in the longitudinal direction.

  The fourth connecting arm member 25 is disposed along the longitudinal direction of the fourth column upper end connecting member 13. Further, the other end of the fourth connecting arm member 25 in the longitudinal direction is connected to the other end of the first connecting arm member 22 in the longitudinal direction. That is, the first to fourth connecting arm members 22 to 25 are combined with each other to form a rectangular top frame. Moreover, the 2nd connection arm member 23 and the 4th connection arm member 25 comprise the connection arm part (movable arm).

  The first component fixing upper frame 26 is attached to the bottom surface of the second connecting arm member 23. The second component fixing upper frame 27 is attached to the bottom surface of the fourth connecting arm member 25. The shapes of the first component fixing upper frame 26 and the second component fixing upper frame 27 are continuous irregularities that are continuous in the longitudinal direction of the second connecting arm member 23 and the fourth connecting arm member 25, respectively. Accordingly, the first component fixing upper frame 26 and the second component fixing upper frame 27 can be fitted to a plate-like member.

  The component lower end fixing mechanism 19 includes a floor plate 28 and first to third component fixing lower frames 29 to 31 as component lower end fixing portions. The floor plate 28 is disposed so as to pass between the intermediate portion in the length direction of the first column lower end connecting member assembly 6 and the intermediate portion in the length direction of the third column lower end connecting member assembly 8. Here, the 1st-4th pillar lower end connection member assembly 6-9 and the floor board 28 comprise the base part for conveying elevator components. Moreover, the opening for insertion of the nail | claw of a forklift is provided in the 1st-4th pillar lower end connection member assembly 6-9.

  The first to third component fixing lower frames 29 to 31 are attached to the upper surface of the floor plate 28. Further, the first to third component fixing lower frames 29 to 31 are arranged at intervals in the length direction of the first column lower end connecting member assembly 6 and the third column lower end connecting member assembly 8. . Furthermore, the shape of the lower frames 29 to 31 for fixing the first to third parts is a continuous concavo-convex shape continuous in the longitudinal direction of the second column lower end connecting member assembly 7 and the fourth column lower end connecting member assembly 9. Yes.

  Here, each of the first component fixing upper frame 26, the second component fixing upper frame 27, and the first to third component fixing lower frames 29 to 31 covers the steel frame and the frame. And a protective material such as an elastic body. Further, the positions of the irregularities of the first component fixing upper frame 26 and the second component fixing upper frame 27 and the positions of the irregularities of the first to third component fixing lower frames 29 to 31 correspond to each other in the vertical direction ( Match.

  Next, a state where the elevator part A is accommodated in the container body 1 of FIG. 1 will be described. FIG. 2 is a side view showing the container body 1 of FIG. 3 is a cross-sectional view taken along line III-III in FIG. 2 shows a state in which the third columnar body 4, the fourth columnar body 5, the third column lower end connecting member assembly 8, and the third column upper end connecting member 12 of FIG.

  2 and 3, a plurality of plate-like elevator parts A are accommodated in the container body 1. The elevator part A is a part used for an elevator such as an escalator or a passenger conveyor including a moving sidewalk, or an elevator. If a more specific example is given, as a part used for a passenger conveyor, it is a manhole cover, the outer panel (design board) of a truss, a balustrade panel, etc. Moreover, as a part used for an elevator, it is a wall board of a car, or a door panel.

  The lower end of the elevator part A is fitted in the recesses of the first to third part fixing lower frames 29 to 31. Further, the upper end of the elevator part A is fitted in the recesses of the first part fixing upper frame 26 and the second part fixing upper frame 27. The elevator component A is pressed against the first to third component fixing lower frames 29 to 31 by the first component fixing upper frame 26 and the second component fixing upper frame 27. That is, the elevator component A is fixed in the container body 1 by the first component fixing upper frame 26 and the second component fixing upper frame 27 and the first to third component fixing lower frames 29 to 31. .

  1 to 3, bolts 32 are screwed into contact portions between the bottom surface portion of the first connecting arm member 22 and the top surface portion of the first contact member 20. Similarly, a bolt 32 is screwed into a contact portion between the bottom surface portion of the first connecting arm member 22 and the top surface portion of the second contact member 21. The bottom surface portion of the first connecting arm member 22 is fixed to the top surface portions of the first contact member 20 and the second contact member 21 by bolts 32.

  A long slot 23a for sliding is provided at a connection position of the second connecting arm member 23 with the third component fixing vertical frame 16. An attachment hole (not shown) is provided at a location where the third component fixing vertical frame 16 is connected to the second connecting arm member 23. Bolts 33 are inserted into the mounting holes of the third component fixing vertical frame 16 and the elongated holes 23 a of the second connecting arm member 23, and nuts (not shown) are screwed into the shaft portions of the bolts 33. It is worn.

  The second connecting arm member 23 is connected to the third component fixing vertical frame 16 by a bolt 33. Moreover, the 2nd connection arm member 23 can be rotated by making the volt | bolt 33 into a rotating shaft. The support relationship between the fourth component fixing vertical frame 17 and the fourth connection arm member 25 is the same as the support relationship between the third component fixing vertical frame 16 and the second connection arm member 23. That is, the fourth connecting arm member 25 is connected to the fourth component fixing vertical frame 17 by the bolt 33. Similarly to the second connecting arm member 23, the fourth connecting arm member 25 is provided with a long hole (not shown), and is rotatable about the bolt 33 as a rotation axis. Accordingly, the second connecting arm member 23 and the fourth connecting arm member 25 are rotatable about the connection point between the third component fixing vertical frame 16 and the fourth component fixing vertical frame 17, respectively.

  The 2nd connection arm member 23 and the 4th connection arm member 25 can be displaced between a connection position (closed position) and a maximum open position by rotating. The second connecting arm member 23 and the fourth connecting arm member 25 are inclined with respect to the third component fixing vertical frame 16 and the fourth component fixing vertical frame 17, respectively, when arranged at the maximum open position. Retained.

  The connecting position in the second connecting arm member 23 is that the upper ends of the second component fixing vertical frame 15 and the third component fixing vertical frame 16 are connected to each other, and the first component fixing upper frame 26 is fixed to the third component. This is the position facing the lower frame 31 for use. The maximum open position of the second connecting arm member 23 means that the upper end portions of the second component fixing vertical frame 15 and the third component fixing vertical frame 16 are released from each other, and the elevator component A is connected to the first to third components. This is a position for attaching to and detaching from the fixing lower frames 29 to 31.

  The connecting position in the fourth connecting arm member 25 is that the upper ends of the first component fixing vertical frame 14 and the fourth component fixing vertical frame 17 are connected to each other, and the second component fixing upper frame 27 is fixed to the first component. This is the position facing the lower frame 29 for use. On the other hand, the maximum open position of the fourth connecting arm member 25 means that the upper end portions of the first component fixing vertical frame 14 and the fourth component fixing vertical frame 17 are released from each other, and the elevator component A is moved from the first to the first. This is a position for attaching to and detaching from the three component fixing lower frames 29 to 31.

  Here, when the second connecting arm member 23 and the fourth connecting arm member 25 are arranged at the connecting position, the first component fixing upper frame 26 and the second component fixing upper frame 27 and the first to third components. The elevator parts A are sandwiched from above and below by the fixing lower frames 29 to 31. Thus, the elevator part A is fixed in the container body 1 (the upper surface of the floor board 28).

  In the vicinity of the connection portion of the second connecting arm member 23 with the third component fixing vertical frame 16 (the portion adjacent to the third component fixing vertical frame 16 in the lower end portion of the second connecting arm member 23), a rod shape is provided. A latch 34 is fixed. The latch 34 protrudes toward the outside in the longitudinal direction of the third connecting arm member 24 (left side in the left-right direction in FIG. 2). Similarly, in the vicinity of the connection portion of the fourth connecting arm member 25 with the fourth component fixing vertical frame 17, to the outside in the longitudinal direction of the third connecting arm member 24 (right side in the left-right direction in FIG. 2). The latch 34 is fixed so as to protrude toward the end.

  FIG. 4 is an enlarged cross-sectional view of a portion IV in FIG. In FIG. 4, a notch-shaped holding groove 16 a is provided at a position on the first component fixing vertical frame 14 side among the connection portions of the third component fixing vertical frame 16 with the second connecting arm member 23. ing. The holding groove 16a is curved in a U shape toward the opposite side of the first component fixing vertical frame 14 (from the left side to the right side in the figure). As shown in FIG. 1, the fourth component fixing vertical frame 17 is also provided with a holding groove 17a having the same shape as the holding groove 16a, similarly to the third component fixing vertical frame 16.

  Moreover, in FIG. 4, the center line of the long hole 23a of the 2nd connection arm member 23 is bent in the shape of a character. That is, the long hole 23a is configured by a long side portion and a short side portion. The long side portion of the elongated hole 23a extends from the position on one end side in the longitudinal direction of the second connecting arm member 23 (right side in FIG. 3) to the other end side in the longitudinal direction of the second connecting arm member 23 (left side in FIG. 3). Continuing along the longitudinal direction. The short side portion of the long hole 23a is inclined toward the latch 34 from the end of the long side portion. In addition, the shape of the long hole of the 4th connection arm member 25 is also the same shape as the long hole 23a of the 2nd connection arm member 23. FIG.

  FIG. 5 is a cross-sectional view showing the second connecting arm member 23 of FIG. 4 when placed in the maximum open position. In FIG. 5, when the second connecting arm member 23 is rotated, the second connecting arm member 23 is slid along the elongated hole 23 a with the shaft portion of the bolt 33 as a sliding shaft. When the bolt 33 comes into contact with the end of the long side of the long hole 23a, the latch 34 is fitted into the holding groove 16a. By fitting the latch 34 into the holding groove 16a, the second connecting arm member 23 is held at the maximum open position. Here, the fourth connecting arm member 25 is the same as the second connecting arm member 23. When the fourth connecting arm member 25 is disposed at the maximum open position, the latch 34 is fitted into the holding groove 17a. The fourth connecting arm member 25 is held at the maximum open position.

  Next, the accommodation operation | work to the container main body 1 of the elevator component A is demonstrated. 6 and 7 are explanatory views for explaining a part of the work process of the accommodation work of the elevator part A. FIG. 6 and 7 show a state in which the container body 1 is viewed from the same direction as FIG. In FIG. 6, the bolt 32 is removed from the first connecting arm member 22 as indicated by an arrow A. Then, as shown by arrow B, one end (the left end in the figure) of the second connecting arm member 23 and the fourth connecting arm member 25 is lifted by an operator, and the second connecting arm member 23 and The fourth connecting arm member 25 is rotated clockwise in the drawing.

  Thereafter, as shown in FIG. 7, the second connecting arm member 23 and the fourth connecting arm member 25 are disposed at the maximum open position, and the latch 34 is fitted into the holding groove 16 a or the holding groove 17 a, and the second connecting arm member 23. And the 4th connection arm member 25 is hold | maintained in the maximum open position. At this time, since the second connecting arm member 23 and the fourth connecting arm member 25 are arranged at the maximum open position, a working opening (working space) X is formed in the upper part of the container body 1. The depth (left and right direction in FIG. 7) of the working opening X is about half the longitudinal dimension of the second connecting arm member 23 and the fourth connecting arm member 25.

  Through this working opening X, the elevator part A is moved in the order of arrow C, arrow D, and arrow E in FIG. 7, and the lower end of the elevator part A is the first to third part fixing lower frames 29 to 29. 31 is fitted into the recess. By repeating such operations, a plurality of elevator parts A are arranged in the container body 1.

  Then, when a plurality of elevator parts A are arranged in the container main body 1, the second connecting arm member 23 and the fourth connecting arm member 25 are rotated counterclockwise in the drawing, thereby the second connecting arm member 23. And the 4th connection arm member 25 is displaced from a maximum open position to a connection position. Thereby, the recesses of the first component fixing upper frame 26 and the second component fixing upper frame 27 fit into the upper end of the elevator component A. In this state, the bolts 32 are inserted into the first connecting arm member 22 and the first contact member 20, and the first connecting arm member 22 and the second contact member 21, respectively.

  As a result, the elevator part A is pressed downward by the first part fixing upper frame 26 and the second part fixing upper frame 27. That is, the elevator component A is sandwiched from above and below by the first component fixing upper frame 26, the second component fixing upper frame 27, and the first to third component fixing lower frames 29-31. A is fixed in the container body 1. In addition, when taking out the elevator component A from the container body 1, the same operation as the above-described accommodation operation is performed.

  In the elevator component transport container as described above, the second connecting arm member 23 and the fourth connecting arm member 25 can be displaced between the connecting position and the maximum open position, and the second connecting arm member 23 and the fourth connecting arm member 25 can be displaced. When the arm member 25 is disposed at the maximum open position, the second connecting arm member 23 and the fourth connecting arm member 25 are held at the maximum open position. By eliminating the need for attaching and detaching the upper frame and the top frame, it is possible to improve the work efficiency of the work for storing and taking out the elevator parts A and to shorten the time required for the work.

  Further, since the latch 34 is fitted in the holding grooves 16a and 17a, the second connecting arm member 23 and the fourth connecting arm member 25 are held at the maximum open position, so that a relatively simple structure can be obtained.

Embodiment 2. FIG.
Next, a second embodiment of the present invention will be described. First, in the first embodiment, when the second connecting arm member 23 and the fourth connecting arm member 25 are arranged at the maximum open position, the second connecting arm member 23 and the fourth connecting arm member 25 are respectively third components. It was held in an inclined state with respect to the fixing vertical frame 16 and the fourth component fixing vertical frame 17. In contrast, in the second embodiment, when the second connecting arm member 23 and the fourth connecting arm member 25 are arranged at the maximum open position, the second connecting arm member 23 and the fourth connecting arm member 25 are respectively The third component fixing vertical frame 16 and the fourth component fixing vertical frame 17 are held in an extended state in the height direction. That is, the rotatable angle of the second connecting arm member 23 and the fourth connecting arm member 25 of the second embodiment is about 90 degrees.

  FIG. 8 is a perspective view showing a container for conveying elevator parts according to the second embodiment. In the first embodiment, as shown in FIG. 1, the third pillar upper end connecting member 12 is used as a part of the skeleton of the container main body 1. However, in the second embodiment, as shown in FIG. Instead of the third column upper end connecting member 12, a fifth column upper end connecting member 41 and a sixth column upper end connecting member 42 are used as part of the skeleton of the container body 1. The upper end portion of the third columnar body 4 and the upper end portion of the third part fixing vertical frame 16 are connected to each other by the fifth column upper end connecting member 41. The sixth column upper end connecting member 42 connects the upper end portion of the fourth columnar body 5 and the upper end portion of the fourth component fixing vertical frame 17 to each other.

  FIG. 9 is a side view showing the container body 1 of FIG. 8 when the second connecting arm member 23 is disposed at the connecting position. 10 is a cross-sectional view taken along line XX of FIG. 9 and 10, when the second connecting arm member 23 and the fourth connecting arm member 25 are arranged at the connecting position, the elevator component A is fixed in the container body 1 as in the first embodiment.

  FIG. 11 is a side view showing the container main body 1 of FIG. 8 when the second connecting arm member 23 is disposed at the maximum open position. 12 is a cross-sectional view taken along line XII-XII in FIG. As shown in FIG. 7, the working opening X is formed in the first embodiment when the second connecting arm member 23 and the fourth connecting arm member 25 are disposed at the maximum open position. In Form 2, the working opening Y is formed when the second connecting arm member 23 and the fourth connecting arm member 25 are disposed at the maximum open position. Here, the depth dimension of the working opening X of the first embodiment is about half the longitudinal dimension of the second connecting arm member 23 and the fourth connecting arm member 25, but the working opening of the second embodiment. The depth (the left-right direction in FIG. 12) dimension of the opening Y is a dimension corresponding to the longitudinal dimension of the second connecting arm member 23 and the fourth connecting arm member 25.

  In the first embodiment, when the elevator part A is accommodated on the third part fixing vertical frame 16 and the fourth part fixing vertical frame 17 side in the container body 1, the second connecting arm member 23 and the fourth part In order to avoid contact between the connecting arm member 25 and the elevator part A, it was necessary to move in the order of arrow C, arrow D, and arrow E in FIG. On the other hand, in the second embodiment, when the elevator part A is accommodated on the side of the third part fixing vertical frame 16 and the fourth part fixing vertical frame 17 in the container body 1, the working opening Y is performed. By lowering the elevator part A as shown by arrow F in FIG. 12 by being wider than the working opening X of the first embodiment, the lower part 29 of the elevator part A is attached to the lower frame 29 for fixing the first to third parts. It can be fitted in the recesses of ~ 31.

  FIG. 13 is an enlarged cross-sectional view illustrating a portion XIII in FIG. In the first embodiment, as shown in FIG. 4, the center line of the long hole 23 a of the second connecting arm member 23 is bent in the shape of a letter, but in the second embodiment, as shown in FIG. 13. The center line of the long hole 23a of the second connecting arm member 23 is linear. The shape of the long hole of the fourth connecting arm member 25 is the same as the shape of the long hole 23a of the second connecting arm member 23.

  In the first embodiment, as shown in FIGS. 1 and 4, the holding grooves 16a and 17a are curved in a U shape toward the opposite sides of the first and second component fixing vertical frames 14 and 15. It was. On the other hand, in the second embodiment, as shown in FIGS. 8 and 13, the holding grooves 16 b and 17 b are grooves formed toward the opposite sides of the first and second component fixing vertical frames 14 and 15. It is comprised by the opening and the groove | channel fitting part formed toward the height direction downward direction of the 3rd and 4th component fixing vertical frames 16 and 17 from a groove opening part. Other configurations are the same as those in the first embodiment.

  Next, the process of displacement of the second connecting arm member 23 will be described. Here, the process of displacement of the second connecting arm member 23 will be described, but the process of displacement of the fourth connecting arm member 25 is the same as the process of displacement of the second connecting arm member 23. First, as shown in FIGS. 13 and 14, the second connecting arm member 23 is rotated clockwise in the drawing with the bolt 33 as a rotation axis. At this time, the latch 34 is inserted into the groove opening of the holding groove 16b. Thereafter, as shown in FIG. 15, the second connecting arm member 23 is arranged at the maximum open position, the latch 34 is fitted into the groove fitting portion of the holding groove 16b, and the second connecting arm member 23 is held at the maximum open position. Is done.

  In the elevator component transport container as described above, when the second connecting arm member 23 and the fourth connecting arm member 25 are disposed at the maximum open position, the second connecting arm member 23 and the fourth connecting arm member 25 are Since the three component fixing vertical frame 16 and the fourth component fixing vertical frame 17 are extended upward in the height direction, the work opening Y is wider than the work opening X in the first embodiment. It is possible to further improve the work efficiency of the work of storing and taking out the elevator parts A.

  In Embodiments 1 and 2, the shape of the elevator component A is a plate shape, but the shape of the elevator component A is not necessarily limited to a plate shape, and may be another shape. For example, non-plate-like things, such as a hoisting machine, can also be accommodated as elevator parts. In this case, the shape of the first component fixing upper frame 26 and the second component fixing upper frame 27 in the first and second embodiments is a shape that can be fitted to the upper end portion of the elevator parts, and the first and second embodiments. It becomes realizable by making the shape of the lower frames 29-31 for 1st-3rd components fixation in 2 into the shape which can be fitted with the lower end part of elevator components.

  In the first and second embodiments, the container main body 1 is an open container (flat rack container) whose main exterior is a skeleton of a square steel pipe. However, the side and upper portions of the container main body 1 are closed by an outer plate. It may be a closed container (dry container).

  Further, in the first and second embodiments, the third component fixing vertical frame 16 and the fourth component fixing vertical frame 17 are provided with holding grooves 16a and 16b and holding grooves 17a and 17b, respectively, and the second connecting arm. The latches 34 are provided on the member 23 and the fourth second connecting arm member 25, respectively, but the present invention is not limited to this example. In other words, the third component fixing vertical frame 16 and the fourth component fixing vertical frame 17 are each provided with a latch, and the second connecting arm member 23 and the fourth second connecting arm member 25 are provided with holding grooves. May be.

  Furthermore, in the first and second embodiments, the first vertical frame is constituted by the third component fixing vertical frame 16 and the fourth component fixing vertical frame 17 is constituted by the first vertical frame, and the second vertical frame is designated by the first vertical frame. Since the one component fixing vertical frame 14 and the second component fixing vertical frame 15 are configured, and the connecting arm portion is configured by the second connecting arm member 23 and the fourth connecting arm member 25, the first vertical fixing frame 14 is provided. Two members were used for each of the frame, the second vertical frame, and the connecting arm portion. However, the present invention is not limited to this example, and the first vertical frame, the second vertical frame, and the connecting arm portion have one or Three or more members may be used.

It is a perspective view which shows the elevator components conveyance container by Embodiment 1 of this invention. It is a side view which shows the container main body of FIG. It is sectional drawing which follows the III-III line of FIG. It is sectional drawing which expands and shows the IV section of FIG. It is sectional drawing which shows the 2nd connection arm member of FIG. 4 when arrange | positioning in the maximum open position. It is explanatory drawing for demonstrating a part of work process of the accommodation operation | work of an elevator components. It is explanatory drawing for demonstrating a part of work process of the accommodation operation | work of an elevator components. It is a perspective view which shows the elevator component conveyance container by Embodiment 2 of this invention. It is a side view which shows the container main body of FIG. 8 when a 2nd connection arm member and a 4th connection arm member are arrange | positioned in a connection position. It is sectional drawing which follows the XX line of FIG. It is a side view which shows the container main body of FIG. 8 when a 2nd connection arm member and a 4th connection arm member are arrange | positioned in the maximum open position. It is sectional drawing which follows the XII-XII line | wire of FIG. It is sectional drawing which expands and shows the XIII part of FIG. It is explanatory drawing for demonstrating the process of the displacement of the connection arm member of FIG. It is explanatory drawing for demonstrating the process of the displacement of the connection arm member of FIG.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Container main body, 14 1st component fixing vertical frame (1st vertical frame), 15 2nd component fixing vertical frame (1st vertical frame), 16 3rd component fixing vertical frame (2nd vertical frame), 16a , 16b Holding groove, 17 Fourth component fixing vertical frame (second vertical frame), 17a, 17b Holding groove, 22 First connecting arm member, 23 Second connecting arm member (connecting arm portion), 24 Third connecting arm Members, 25 fourth connecting arm member (connecting arm portion), 26 first component fixing upper frame (component upper end fixing portion), 27 second component fixing upper frame (component upper end fixing portion), 28 floor plate, 29 first Component fixing lower frame (component lower end fixing portion), 30 Second component fixing lower frame (component lower end fixing portion), 31 Third component fixing lower frame (component lower end fixing portion), 34 Latch, A Lifting machine parts.

Claims (3)

A base for transporting elevator parts used in elevators,
A first vertical frame and a second vertical frame which are provided upright on the base and are spaced apart from each other;
A component lower end fixing portion which is provided on the upper surface of the base portion and is disposed between the first vertical frame and the second vertical frame and into which a lower end portion of the elevator component is fitted;
A component upper end fixing portion that can be fitted to an upper end portion of the elevator component, and the component upper end fixing portion that is connected to the second vertical frame, is attached to the bottom portion, and the first vertical frame and the second vertical frame are connected to each other. The elevator part is fixed to the base part by connecting the part upper end fixing part to the part lower end fixing part and sandwiching the elevator part from above and below by the part upper end fixing part and the part lower end fixing part. Between the connection position and the maximum opening position for releasing the connection between the first vertical frame and the second vertical frame and attaching and detaching the elevator component to the component lower end fixing portion, A container for transporting elevator parts, comprising a connecting arm portion that is displaceable with a connection point as a fulcrum and is held at the maximum open position. 2. The elevator component transport container according to claim 1, wherein the connecting arm portion is held in a state of being extended upward in the height direction of the second vertical frame when the connecting arm portion is disposed at the maximum open position. . The connection arm portion is provided with either a latch or a holding groove,
The second vertical frame is provided with the other of the latch and the holding groove,
The connection arm portion is held at the maximum open position by fitting the latch into the holding groove when the connection arm portion is disposed at the maximum open position. Item 3. The elevator parts transport container according to Item 2.

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