JP2009274863A - Lifting device and cargo transshipping method using this lifting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a compact lifting device capable of performing installation and lifting operation even by the manpower of one worker. <P>SOLUTION: This lifting device has a columnar body 2 self-suportable while vertically setting the axis to the ground surface, a cylindrical cover body 3 having a support part 32 for supporting a cargo and fitted around the columnar body 2, and a lifting mechanism 4 for lifting the cylindrical cover body 3 in the axial direction of the columnar body 2. The lifting mechanism 4 has a lever block means 44 formed with a pulley 41 and a lever operation part 42 arranged in the cylindrical cover body 3, and a chain 43 connected to the upper and lower end parts of any columnar body 2 via these pulley 41 and lever operation part 42. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an elevating device used for transshipment of cargo between lorries such as trucks and a cargo transshipment method using the elevating device.

  Conventionally, in logistics, a lifting device such as a jack is used for the purpose of adjusting the height of a container and lifting a cargo accompanying conveyance.

  For example, in Patent Document 1, for the purpose of adjusting the height of a rear end portion of a container vehicle that stores a transported object, a jack device provided on both sides of the container rear end portion during transport of the transported object and the jack device are disclosed. There is disclosed a method for conveying a conveyed product using.

  The jack includes a rectangular parallelepiped main body, and a support wall having a U-shaped cross section extending in the vertical direction is erected on an upper surface of the main body of the jack, and extends to one surface of the support wall. A guide portion is provided. In the guide portion, an elevating body including a locking pin is guided so as to be movable up and down. A manual hydraulic jack mechanism is provided on the upper surface of the jack body. The jack mechanism includes a hydraulic cylinder that supports a ram so as to be slidable in the vertical direction, and an upper end portion of the ram is connected to a lifting body. A pump is connected to the hydraulic cylinder by piping. The hydraulic pressure is supplied into the hydraulic cylinder by swinging up and down the manual operation section of the pump, and the hydraulic pressure is discharged from the hydraulic cylinder by operating the button on the discharge valve. Further, eyebolts are fixed to the four corners on the upper surface of the jack body. A connecting member such as a sling and a wire is connected to these eyebolts, and the jack is transferred by a cargo handling means such as an overhead crane or a forklift.

JP 2007-1745 A

  However, the above-mentioned jack tool has a large output because a hydraulic cylinder or pump is used as a mechanism for moving up and down, but it is extremely large. Therefore, a separate crane is required for transferring and installing the jack tool. For example, when lifting or lowering cargo that is not as heavy as a container or when it is necessary to perform lifting work quickly, there is a problem that handling becomes troublesome. It was. In addition, since the jack is a large-scale device as described above, it is not only necessary to take a large storage space but also causes a problem that maintenance is troublesome.

  Accordingly, an object of the present invention is to provide a compact lifting device that can be installed even by one worker, and a cargo transshipment method that uses the lifting device.

  As specific means for solving the above-mentioned problems, the lifting device according to the present invention includes: (1) a columnar body that can be self-supported in a state where the axis is perpendicular to the ground; and a support portion that supports cargo. A cylindrical cover body that is externally fitted to the body, and an elevating mechanism that elevates and lowers the cylindrical cover body in the axial direction of the columnar body and transmits a load from the cylindrical cover body to the columnar body. A mechanism is provided over the columnar body and the cylindrical cover body.

  According to this, the whole raising / lowering apparatus can be expanded-contracted by sliding a columnar body and a cylindrical cover body mutually with an raising / lowering mechanism. Further, according to the above configuration, the columnar body can be accommodated in the cylindrical cover body in the state where the apparatus is most contracted, so that the entire apparatus can be reduced in size and the portability can be improved. It has been. Moreover, since the raising / lowering mechanism is provided over these columnar bodies and the cylindrical cover bodies, the overall size of the apparatus is also reduced.

  (2) The elevating device is connected to a pulley and a lever operation part provided in either one of the columnar body and the cylindrical cover body, and to the other upper and lower ends via the pulley and the lever operation part. It is preferably formed as lever block means formed with a chain.

  According to this, even if there is only one worker, the cylindrical cover can be easily raised or lowered to raise or lower the cargo by operating the lever operation portion while the cargo is supported by the support portion. .

  (3) Further, the lever block means is configured by connecting a chain to the upper and lower ends of the columnar body and attaching a pulley and a lever operating portion to the cylindrical cover body, and the lever operating portion is configured to rotate at least the pulley. Engaging the chain at the same height as the shaft or higher, and sliding the chain in the longitudinal direction according to the lever operation, wherein the pulley has the other upper end and the lever operating part. It is preferably mounted on the chain so as to be able to rotate.

  According to this, since the chain is stretched over the upper end portion of the columnar body and the lever operation section, and the pulley is mounted on the stretched chain, the pulley is transmitted to the cylindrical cover body. The load from the cargo is transmitted to the chain through the pulley.

  (4) Further, the columnar body is formed with a guide path for guiding the movement of the shaft body and the wheel of the pulley along the axial direction of the columnar body, and the pulley is formed in the cylindrical cover body. It is preferable to fit in the guide path of the columnar body in the accommodated state.

  According to this, the engaging portion between the pulley and the chain is located in the middle of the hoistway of the cylindrical cover body and on the axis of the columnar body, and the pulley moves up and down on the guide path of the columnar body. As a result, a stable posture is ensured, so that the transmission of the load between the pulley and the chain is stable regardless of the elevation of the cylindrical cover body.

  In addition, since the moving path of the pulley of the lever block means and the hoisting path of the cylindrical cover body are both provided on the axis of the columnar body, the overall size of the apparatus can be further reduced.

  (5) Moreover, it is preferable that the support part of the said cylindrical cover body is provided on the axial center of the said columnar body.

  According to this, the axis of action of the load from the cargo and the axis of the columnar body can coincide or substantially coincide with each other, and the standing posture of the columnar body can be stabilized even when the cargo is supported. Can do.

  (6) Further, the columnar body is formed to have the same width as the wheel of the pulley and the same depth as the shaft body, and the cylindrical cover body has an axial center on the columnar body. It is preferable that it is fitted around so that it cannot rotate.

  According to this, the magnitude | size of the planar direction of a columnar body and a cover body can be set to the planar shape of a pulley, and size reduction of the whole apparatus can be achieved. Further, the columnar body and the cylindrical cover body move relative to each other only in the axial direction of the columnar body in the axial direction, so that the raising / lowering posture of the cylindrical cover body can be stabilized.

  (7) In addition, the cylindrical cover body is formed with a holding portion that holds a rod-shaped connecting material that is spanned to maintain the position of the columnar body, and the holding portion is formed from the vertical width of the connecting material. It is also preferable to provide a pair of opposing walls provided with a slightly larger interval, and to hold a part of the connecting material between the opposing walls.

  According to this, a raising / lowering apparatus can be connected with another fixed object via a connection material. Thereby, it becomes possible to hold | maintain the position of a raising / lowering apparatus more reliably by hold | maintaining the relative position of the said raising / lowering apparatus and a fixed object by this connection material. For example, when two or more lifting devices are used, both the lifting devices can be connected via a connecting member. As a result, the standing posture of each lifting device can be further stabilized, and the interval between the lifting devices can be maintained throughout the operation, whereby the standing position of each lifting device can also be maintained.

  In addition, a part of the connecting material held by the holding part is held between the pair of opposing walls of the holding part with a slight gap, so that the connecting material is inclined more than the angle allowed by the gap. It will be limited. For this reason, when two lifting devices are connected by a connecting material as described above, when one lifting device is extended (or expanded or contracted), the connecting material tilts slightly. This is significantly limited by abutting a part of the holder and the holding portion, and cannot tilt more than a predetermined amount. As a result, one lifting device cannot be extended more excessively than the other lifting device, so that even if a single worker extends or retracts the lifting device one by one, an excessive inclination of the cargo Can be prevented.

  (8) Further, as another specific means for solving the above-described problem, the freight transshipment method according to the present invention is provided on both sides of the loading platform of the lorry that loads the cargo loaded on the pallet on the loading platform. A horizontal material is bridged between the lifting process located at one side of the loading platform and the lifting device located on the other side in a state where the horizontal member is inserted into the pallet. A transfer step, a lifting step of lifting the pallet from the loading platform by the horizontal member, raising the height of the horizontal member by sequentially extending each lifting device one by one, and moving the lorry, A lorry replacement process in which a lorry different from the lorry is stopped with the loading platform facing the lower surface of the pallet, and the height of the horizontal member is lowered by contracting each lifting device one by one. Load the pallet It is characterized by performing the re-placing step of placing the order.

  Here, the lifting device indicates the lifting device of the present invention.

  According to this, the state where the cargo is placed on the pallet is maintained before and after the replacement of the lorry, and the cargo only moves up and down slightly with the pallet and moves horizontally. Therefore, even a freight that easily breaks due to an impact or a vibration accompanying a horizontal movement can be safely transshipped.

  (9) Further, the installation step includes a connecting step of connecting the lifting devices located on the same side with respect to the freight vehicle via a rod-like connecting material, and the connecting material is tilted by the predetermined angle or more. It is preferable to be connected to each lifting device in a limited state.

  According to this, since the lifting device is connected to each other, the standing posture of each lifting device can be further stabilized. Moreover, the inclination more than the predetermined inclination of a pallet can be prevented, and work can be performed more safely.

  According to the eaves-in-ceiling structure of the present invention, not only installation and lifting operation can be performed by one worker alone, but also one operator can transship cargo.

  Hereinafter, based on FIGS. 1-7, it demonstrates in detail about the form which implemented this invention.

  The elevating device 1 of the present embodiment includes a columnar body 2 that can be self-supported in a state in which the axis is perpendicular to the ground, and a cylindrical cover body 3 that includes a support portion 32 that supports cargo and is externally fitted to the columnar body 2. And an elevating mechanism 4 that elevates and lowers the cylindrical cover body 3 in the axial direction of the columnar body 2.

  The columnar body 2 includes a base plate 21 that is placed on the ground and a column portion 22 that is erected on the base plate 21. The base plate 21 is formed in a flat plate shape having a square shape in plan view.

  The column portion 22 is formed to include a column portion main body 23 erected on the base plate 21 and a canopy 24 that covers the upper end portion of the column portion main body 23. As shown in FIG. 2 (b), the column main body 23 includes four leg portions 25 that are formed in a long shape, and the leg portions 25 are predetermined to each other in a cross-sectional view. Are arranged in a square shape with a spacing of. More specifically, each leg portion 25 is disposed in a state where two adjacent side surfaces are opposed to the other leg portions 25 with a predetermined interval therebetween. Thereby, each leg 25 exposes the other two side surfaces to the outside, and the contour shape of the cross section of the columnar body 23 formed by connecting the other two side surfaces of each leg 25 is square. It becomes.

  The canopy 24 is formed of a flat plate formed in a square shape equal to the contour shape of the cross section of the column main body 23, and is connected to the tip of each leg 25 of the column main body 23 at each top. The upper end portion of the portion 22 is formed.

  The cylindrical cover body 3 includes a cover body 31 formed in an elongated shape, a support portion 32 provided at the upper end portion of the cover body 31, and a holding portion 33 provided in the middle portion of the cover body 31. ing.

  The cover body 31 is formed in a square tube shape with a square shape in cross section, and the width of each inner peripheral surface of the cover body 31 is the same as or slightly larger than the width of the column portion body 23 of the columnar body 2. Is formed. As a result, the cover body 31 is externally fitted to the columnar body 2 in a state in which the axis centers thereof coincide or substantially coincide with each other. Further, when the cylindrical cover body 3 is externally fitted to the columnar body 2, the cylindrical cover body 3 and the columnar body 2 can move the columnar body 2 out of the cylindrical cover body 3 along the axis. It becomes possible, and relative rotation is impossible around the axis. That is, the columnar body 2 functions as a guide for guiding the raising and lowering of the cylindrical cover body 3.

  Further, the height of the cover main body 31 is formed larger than the height of the column main body 23 of the columnar body 2, and when the cover main body 31 is lowered to the lowest end, the lower end edge of the cover main body 31 is columnar. The column main body 23 comes into contact with the base plate 21 of the body 2 and is accommodated in the cover main body 31.

  The support portion 32 is formed in a U-shape in a front view formed by connecting the lower ends of the pair of plate-like rising walls 34 and 34 with the bottom wall flat plate portion 35, and the flat plate portion 35 becomes the upper end of the cover body 31. It is attached to the upper surface of the lid part 31a. Thereby, since the support part 32 is provided on the axial center of the cover main body 31, the action line of the load which acts on the support part 32 and the axial center of the columnar body 2 will correspond, and it transmits via the support part 32. The applied load acts in the axial direction of the cylindrical cover body 3 and the columnar body 2. As a result, the postures of the cylindrical cover body 3 and the columnar body 2 are stable even when acting on the load.

  The holding portion 33 includes a pair of upper and lower opposing walls 36, 36, a connecting wall 37 that connects the pair of upper and lower opposing walls 36, 36, and a flange 38 that extends vertically from each opposing wall 36, Each flange 38 is connected to one side surface of the cover main body 31. Further, the pair of rising walls 34 and 34 of the support portion 32 and the pair of opposing walls 36 and 36 of the holding portion 33 are attached at positions that are perpendicular to each other.

  In the present embodiment, the elevating mechanism 4 includes a pulley 41 and a lever operation unit 42 that are accommodated and provided in the cylindrical cover body 3, and upper and lower ends of the columnar body 2 via the pulley 41 and the lever operation unit 42. Lever block means 44 including a chain 43 connected to the lever 43 and a support member 45 for supporting the lever operating portion 42.

  The pulley 41 is rotatably mounted on the chain 43 between the other upper end portion of the columnar body 2 and the lever operation portion 42.

  The pulley 41 includes a wheel 46 formed in a disk shape and a rotating shaft 47 serving as a shaft provided through the center of the wheel 46. A groove portion 48 for engaging with the chain 43 is recessed in the outer peripheral surface of. The columnar body 2 is formed to have the same width as the wheel 46 of the pulley 41 and the same depth as the rotary shaft 47.

  Further, the pulley 41 inserts the rolling wheel 46 and the rotating shaft 47 into the gap between the four leg portions 25 forming the column main body 23 of the columnar body 2, and the shaft center of the rotating shaft 47 is the column portion. The main body 23 is fitted between the leg portions 25 of the columnar body 2 in a state of being arranged in a state orthogonal to the axis of the main body 23. As a result, the pulley 41 is movable in the axial direction of the columnar body 2 along the leg portion 25. In view of this point, the four leg portions 25 of the columnar body 2 function as a guide path for the pulley 41.

  Further, in the pulley 41, the rotating shaft 47 is supported by the cylindrical cover body 3 in such a state that the rolling wheels 46 are fitted between the leg portions 25 of the columnar body 2. Specifically, the rotating shaft 47 is supported by a square cylindrical support member 45 attached to the lower end portion of the cover main body 31 of the cylindrical cover body 3. As a result, the pulley 41 is accommodated in the lower end portion of the cylindrical cover body 3 in a state of being fitted in the column main body 23 of the columnar body 2, and the pulley 41 is columnar with respect to the cylindrical cover body 3. The body 2 moves on the guide path of the columnar body 2 as the body 2 moves in and out (that is, the lifting device 1 expands and contracts), and the pulley 41 does not hinder the relative movement between the cylindrical cover body 3 and the columnar body 2. .

  The support member 45 is formed with an opening 45a at a position facing the outer peripheral surface of the wheel 46 of the pulley 41, and a lever is positioned at a position facing the outer peripheral surface of the wheel 46 through the opening 45a. An operation unit 42 is provided.

  The lever operating portion 42 includes a known gear mechanism and an actuator (not shown), and engages the actuator with the chain 43 to relatively move the chain 43 in the longitudinal direction; And an operating lever 50 for operating the winding / braking means 49.

  The hoisting / braking means 49 is supported by the cylindrical cover body 3 via the support member 45 at a position that is the same as or higher than the rotational shaft 47 of the pulley 41.

  The operation lever 50 is connected to a gear mechanism through a known ratchet mechanism, and thus the operation lever 50 can be repeatedly swung in one direction or the other direction.

  One end of the chain 43 is connected to the back surface of the canopy 24 of the columnar body 2, and the lower end is connected to the base plate 21 via a winding / brake means 49. Further, the chain 43 passes under the pulley 41 between the upper end portion and the winding / braking means 49, and the wheel 46 of the pulley 41 is placed on the chain 43.

  Accordingly, when the operation lever 50 is swung in one direction, the chain 43 is wound up by the winding / braking means 49 and relatively moved in the longitudinal direction, and the pulley 41 is rotated in one direction, and the chain is increased by the amount of the winding. 43, the length of the chain 43 from the upper end to the hoisting / braking means 49, that is, the deflection of the chain 43 from the upper end to the hoisting / braking means 49 is small, and this is the pulley mounted on the chain 43 41 is lifted, and the cylindrical cover body 3 accommodating the pulley 41 is also raised. On the other hand, when the operating lever 50 is swung in the other direction, the hoisting / braking means 49 causes the chain 43 to move relative to the direction opposite to the hoisting direction described above. The deflection of the chain 43 until this time is larger than that before the operation lever 50 is swung, and the pulley 41 placed on the chain 43 is lowered. As a result, the cylindrical cover body 3 is also lowered.

  The chain 43 can be wound or lowered at the same rate by one swing of the operation lever 50.

  The configuration of the lifting device 1 of the present embodiment is as described above. Next, a method of transshipment of cargo loaded in the truck 8 using the lifting device 1 to another truck 9 will be described with reference to FIG. Description will be made with reference to FIG.

  Note that the cargo vehicles 8 and 9 for transshipment are both trucks with the loading platforms 81 and 91 open, and in the following description, cargo is transferred from the large (4 ton) truck 8 to the small (2 ton) truck 9. To transship.

  Further, the cargo Q is a fitting such as a window frame or an entrance door, and is assumed to be placed on a predetermined pallet P as shown in FIG.

  As shown in FIG. 5 (b), first, the large truck 8 is stopped on a flat place, and the tilt 82 standing around the loading platform 81 is brought down. Then, a plurality of (two in the present embodiment) lifting devices 1 are installed on one side of the loading platform 81, and the lifting devices are installed on the other side of the loading platform 81 at positions facing these lifting devices 1. 1 is installed (installation process). That is, at least two lifting devices 1 can be installed on both sides of the loading platform 81 of the large-sized truck 8 serving as a freight vehicle for placing the cargo Q placed on the pallet P on the loading platform 81.

  And the rod-shaped connection material 5 is horizontally spanned to the holding | maintenance part 33 of the raising / lowering apparatus 1 located in the same side with respect to the loading platform 81, the raising / lowering apparatuses 1 are connected, and the relative positional relationship between these raising / lowering apparatuses 1 is provided. To fix.

  As shown in FIG. 4A, the connecting member 5 is formed of a rectangular tube-like long member, and the interval between the outer surfaces 5a of the one wall portions facing each other is determined by the holding portion 33. The interval between the outer surfaces 5b of the other wall portions facing each other is slightly smaller than the interval between the inner surfaces of the pair of opposing walls 36, and the interval between the inner surface of the connecting wall 37 of the holding portion 33 and the outer surface of the cover main body 31. Same or slightly smaller. That is, the distance between the pair of opposing walls of the holding portion 33 is slightly larger than the vertical width of the connecting member 5 as shown in FIG. The edge part which becomes a part of is hold | maintained.

  Thereby, the connecting material 5 can be inserted into the holding portion 33. Further, when the connecting member 5 is inserted into the holding portion 33, the connecting member 5 is perpendicular to the axis and is horizontal, that is, a direction in which the connecting member 5 approaches and separates from the cover main body 31 of the cylindrical cover body 3. Is moved by the connecting wall 37 of the holding portion 33 and the outer surface of the cover main body 31, and the vertical movement or swing that is perpendicular to the axis and vertical is the upper side of the holding portion 33. This is possible only in a range allowed by the slight gap S formed between the opposing walls 36. That is, the connecting member 5 is connected to each lifting device 1 in a state where tilting of a predetermined angle or more is limited.

  In addition, a plurality of holes 5c are formed in the axial direction at the end of the connecting member 5, and the pin 7 shown in FIG. 4C is inserted into the hole 5c and inserted into the holding portion 33. In this state, it is fixed to the lifting device 1.

  Next, the horizontal member 6 is inserted into the lower side of the pallet P, and both ends of the horizontal member 6 are supported by the support portions 32 of the elevator device 1 opposed to each other via the loading platform 81, respectively. The horizontal member 6 is bridged between them (the bridging process). As shown in FIG. 4B, the horizontal member 6 is formed of a rectangular tubular long member, and the length is at least larger than the width of the loading platform 81 of the large truck 8.

  Further, a plurality of holes 6a are formed in the axial direction at the end of the horizontal member 6, and the support portion of the lifting device 1 is inserted by inserting the pin 7 shown in FIG. 4C into the hole 6a. It is restrained in the horizontal direction while being supported by 32, and is placed on the lifting device 1. In addition, a groove P1 into which the horizontal member 6 can be inserted is provided in the bottom of the pallet P.

  Next, as shown in FIGS. 5 (c) and 6 (a), the operating lever 50 of the lever operating portion 42 of any of the lifting devices 1 is swung, and the lifting device 1 is extended to extend the horizontal member 6. Lift the end of the. At this time, the horizontal member 6 is tilted by extending only the lifting device 1 and the pallet P is also tilted. However, the pallet P is displaced by the action of the frictional force between the pallet P and the horizontal member 6. There is no fear. Further, the lifting device 1 is connected to the lifting device 1 on the same side with respect to the loading platform 81 via the connecting material 5, and both end portions of the connecting material 5 are inserted into the holding portions 33 of the lifting devices 1. . As described above, the connecting member 5 can swing only within a range allowed by the gap S formed in the holding portion 33, and the connecting member 5 comes into contact with the opposing wall 36 of the holding portion 33 beyond the range. This means that further swinging is constrained.

  Therefore, when one of the connected lifting and lowering devices 1 is extended, the connecting member 5 installed horizontally is inclined, but when it is extended to a certain height, as shown in FIG. The upper and lower surfaces of the end of the connecting member 5 fitted to the holding portion 33 of the lifting device 1 are in strong contact with the pair of upper and lower opposing walls 36 of the holding portion 33, and the holding portion 33 of the other lifting device 1. The upper and lower surfaces of the end portions of the connecting members 5 fitted into each other strongly abut against the pair of upper and lower opposing walls 36 of the holding portion 33, and the resistance due to the abutment further extends the lifting device 1. Be disturbed. That is, when both ends of the connecting member 5 are connected to each other while being inserted into the holding portion 33 of the lifting device 1, a brake means is provided between the lifting devices 1, 1. Each lifting device 1 cannot be lifted any further if the supporting connecting member 5 is tilted by a predetermined angle or more.

  And the raising / lowering apparatus 1 connected with the said raising / lowering apparatus 1 via the connection material 5 or the horizontal member 6 is also extended | expanded one by one. Here, since each elevating device 1 has a constant rate of rising or lowering of the cylindrical cover body 3 by a single lever operation, the number of lever operations of the elevating device 1 extended first is counted. By performing the same direction and the same number of lever operations on the lifting device 1 to be extended, the horizontal members 6 that are inclined between the lifting devices 1 with the same extension ratio of the lifting devices 1 can be easily obtained. Alternatively, the connecting member 5 can be set in a horizontal state. Moreover, since it is possible to raise and lower the pallet P only by lever operation, it is possible to perform work even if there is only one worker.

  The pallet P is lifted from the loading platform 81 by performing the operation as described above on each lifting device 1 (lifting step).

  Next, as shown in FIGS. 6B and 6C, the large truck 8 is moved from the position. At this time, the cargo Q placed on the pallet P is supported by the four lifting devices 1 via the pallet P, but the load from the cargo Q is the axis of each lifting device 1. Since it acts in the direction of the heart, it is maintained in a stable state even though it is supported only by these four lifting devices 1. Moreover, since each raising / lowering apparatus 1 is connected also via the connection material 5, each raising / lowering apparatus 1 itself stands up in a stable state, and the support state is extremely stable. Then, as shown in FIGS. 7A and 7B, the small truck 9 is moved in a state where the tilt 92 is tilted, and the lower surface of the pallet P is opposed to the loading platform 91 of the small truck 9 (cargo vehicle replacement). Process).

  Then, as shown in FIG. 7 (c), each lifting device 1 is contracted by performing a process reverse to the above-described lifting process, and thereby the pallet P is placed on the loading platform 91 of the small truck 9 (re-loading). Process).

  Finally, the transshipment operation of the cargo Q is completed by removing the horizontal member 6 and the connecting member 5 and cleaning up each lifting device 1.

  According to the lifting device 1 of the present embodiment, the columnar body 2 is formed in a long shape, and the cylindrical cover body 3 is formed in a long shape that can move only in the axial direction of the columnar body 2. . Further, the width of each cylindrical cover body 3 and the columnar body 2 is only slightly larger than the diameter of the wheel 46 of the pulley 41 accommodated in the cylindrical cover body 3 and the columnar body 2. Thus, the entire lifting device 1 is downsized. Further, since a pulley 41 that is a part of the lifting mechanism 4 that lifts and lowers the cylindrical cover body 3 with respect to the columnar body 2 is built in between the columnar body 2 and the cylindrical cover body 3, this also lifts and lowers. The apparatus 1 is downsized.

  Further, the lifting device 1 of the present embodiment is not only in a compact state in which the columnar body 2 is accommodated in the cylindrical cover body 3 in the contracted state, but also lever block means 44 for lifting the cylindrical cover body 3. The chain 43 is housed in the columnar body 2 and the pulley 41 is also housed in the columnar body 2 and the cylindrical cover body 3. Further, the pulley 41 moves in the columnar body 2 in the axial direction. Thus, the lifting device 1 is downsized and the portability is improved accordingly. Moreover, weight reduction of the raising / lowering apparatus 1 is also aimed at, such as the column part main body 23 of the columnar body 2 being formed with the four hollow leg parts 25. FIG. Further, the lifting and lowering device 1 can be manually expanded and contracted by the lever block means 44 by one worker.

  In other words, the lifting device 1 can be carried and operated by one worker, and the usability is significantly improved.

  Moreover, according to this embodiment, since the raising / lowering apparatus 1 is compact and lightweight, it becomes possible for even one worker to handle the raising / lowering apparatus 1 easily. Positioning at a position can be performed by one worker alone. Further, the lifting / lowering device 1 is manually (manually) extended or contracted, and since the expansion / contraction is simple by lever operation, even one operator can work. .

  For this reason, the transshipment operation of the cargo Q is performed at a location that is not a logistics base in the region, such as a logistics center having a transshipment device such as a forklift or a lifting device, such as a construction work site of a house or a work plaza near the work site. It is possible to carry out by a worker (driver) alone at a (transshipment place) or the like, and it is not necessary to have a plurality of workers to perform the work, thereby reducing the number of workers. . Furthermore, it is not necessary to reciprocate the small truck 9 for carrying on-site between the base and the site for each site. The large truck 8 travels around each site, and the transshipment is performed between the large truck 8 and the small truck 9. The cargo Q can be transshipped through the work, and not only can the time and time of transportation of the cargo Q be shortened, but also the transportation distance of the small truck 9 can be shortened. This makes it easy to construct a transportation plan that matches the actual situation, thereby promoting JIT (Just-In-Time) carry-in.

  In addition, the operator can lift or lower the entire pallet gradually although the pallet is slightly inclined by performing the lever operation of each elevating device at predetermined times, for example. As a result, even if there is only one worker, it is possible to carry out the transshipment work of cargo, and the work efficiency can be improved.

  As mentioned above, although embodiment of this invention was explained in full detail, the structure of this invention is not limited to the said embodiment, The structure other than the said embodiment is also employable.

  For example, even when the pulley 41 and the lever operation unit 42 are provided in the columnar body 2 and the chain 43 is provided in the cylindrical cover body 3, the same effects as in the present embodiment are obtained. Moreover, even if the columnar body 2 and the cylindrical cover body 3 are turned upside down and the columnar body 2 is lifted and lowered while the cylindrical cover body 3 is standing on the ground, the same effect as the present embodiment can be obtained. Play.

  As an application example of the present invention, the present invention can be applied to an elevating device used in transshipment of cargo between trucks and other lorries and a cargo transshipment method using the elevating device.

(A), (b) is the front view and side view of a lifting apparatus which concern on this invention. (A), (b) is the longitudinal cross-sectional explanatory drawing and transverse cross-sectional explanatory drawing of the raising / lowering apparatus based on this invention. It is a side view which shows a mode that the raising / lowering apparatus which concerns on this invention was extended | stretched. (A) is a figure which shows the structure of a connection material, (b) is a figure which shows the structure of a horizontal member, (c) is a figure which shows the structure of a pin. It is a figure which shows a mode that the transshipment of the cargo between lorries, such as a truck, is performed using the raising / lowering apparatus which concerns on this invention. It is a figure which shows a mode that the transshipment of the cargo between lorries, such as a truck, is performed using the raising / lowering apparatus which concerns on this invention. It is a figure which shows a mode that the transshipment of the cargo between lorries, such as a truck, is performed using the raising / lowering apparatus which concerns on this invention. It is a figure which shows a mode that the two raising / lowering apparatuses installed in the one side of the loading platform raise or lower alternately.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Elevating device 2 ... Columnar body 3 ... Cylindrical cover body 4 ... Elevating mechanism 5 ... Connecting material 5a, 5b ... Outer surface 5c ... Hole 6 ... Horizontal member 6a ... Hole 7 ... Pin 8 ... Large truck (lorry vehicle)
9 ... Light truck (lorry)
DESCRIPTION OF SYMBOLS 21 ... Base plate 22 ... Column part 23 ... Column part main body 24 ... Canopy 25 ... Leg part 31 ... Cover main body 31a ... Cover part 32 ... Support part 33 ... Holding part 34 ... Rising wall 35 ... Bottom wall flat plate part 36 ... Opposite wall 37 ... Connecting wall 38 ... Saddle 41 ... Pulley 42 ... Lever operation part 43 ... Chain 44 ... Lever block means 45 ... Support member 45a ... Opening 46 ... Rolling wheel 47 ... Rotating shaft 48 ... Groove part 49 ... Winding / braking means 50 ... Control lever 81 ... Pallet 82 ... Tail 91 ... Pallet 92 ... Tail P ... Pallet P1 ... Groove Q ... Freight S ... Gap

Claims (9)

A columnar body that can stand on its own axis with respect to the ground, a cylindrical cover body that includes a support portion for supporting cargo, and is fitted around the columnar body, and the cylindrical body in the axial direction of the columnar body. An elevating mechanism that elevates and lowers the cover body and transmits the load from the cylindrical cover body to the columnar body,
The elevating device, wherein the elevating mechanism is provided across the columnar body and the cylindrical cover body. The lifting device includes a pulley and a lever operating portion provided on one of the columnar body and the cylindrical cover body, and a chain connected to the upper and lower ends of the other via the pulley and the lever operating portion. The lifting device according to claim 1, wherein the lifting device is formed as a lever block means that is provided. The lever block means is configured by connecting a chain to the upper and lower ends of the columnar body and attaching a pulley and a lever operating portion to the cylindrical cover body, and the lever operating portion is at least as high as the rotational axis of the pulley. The chain engages with the chain at a height position or higher and slides the chain relatively in the longitudinal direction according to the lever operation. The pulley has an upper end portion of the columnar body and the lever operation unit. The lifting device according to claim 2, wherein the lifting device is rotatably mounted on the chain. In the columnar body, a guide path for guiding the movement of the shaft and the wheel of the pulley is formed along the axial direction of the columnar body, and the pulley is accommodated in the cylindrical cover body. The lifting device according to claim 3, wherein the lifting device is fitted in a guide path of the columnar body. The lifting device according to any one of claims 1 to 4, wherein the support portion of the cylindrical cover body is provided on an axis of the columnar body. The columnar body is formed to have the same width as the roller wheel of the pulley and the same depth as the shaft, and the cylindrical cover body cannot be rotated around the axis of the columnar body. The lifting device according to any one of claims 2 to 5, wherein the lifting device is externally fitted. The cylindrical cover body is formed with a holding portion that holds a rod-shaped connecting member that is spanned to maintain the position of the columnar body, and the holding portion is spaced slightly larger than the vertical width of the connecting member. A lifting device according to any one of claims 1 to 6, further comprising a pair of opposing walls provided to hold a part of the connecting material between the pair of opposing walls. An installation step of installing at least two lifting devices according to any one of claims 1 to 7 on both sides of the cargo bed of a cargo vehicle for placing the cargo placed on the pallet on the cargo bed;
A spanning step of spanning a horizontal member inserted in the pallet between the lifting device located on one side of the loading platform and the lifting device located on the other side;
Lifting each of the lifting devices one by one in order to raise the height of the horizontal member, and lifting the pallet from the loading platform by the horizontal member; and
A freight vehicle replacement step of moving the freight vehicle and stopping a freight vehicle different from the freight vehicle with the loading platform facing the bottom surface of the pallet;
Remounting step of lowering the height of the horizontal member by contracting the lifting devices one by one in order, and placing the pallet on the loading platform,
The cargo transshipment method using the lifting device characterized by performing sequentially. The installation step includes a connecting step of connecting lifting devices located on the same side with respect to the truck via a rod-like connecting material, and the connecting material is restricted from tilting more than the predetermined angle. The cargo transshipment method using the lifting device according to claim 8, wherein the cargo is connected to each lifting device.

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