JP2010036861A - Load receiving platform lifting device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technical means not requiring a new reinforcement member when a load receiving platform lifting device is installed on a load receiving platform. <P>SOLUTION: The load receiving platform lifting device is mounted to a cargo vehicle C provided with the load receiving platform 11 provided such that a lateral beam 16a is extended in a vehicle width direction below a floor plate 15, and is provided with: a load receiving platform for placing a baggage; a base bracket 3 for liftably mounting the load receiving platform and supporting the load of the load receiving platform; and a lifting drive mechanism for lifting the load receiving platform relative to the base bracket 3. A base part 26 of the base bracket 3 is fixed to the load receiving platform 11 by a bolt 12a arranged on the lateral beam 16a and in a position not interfering with the lateral beam 16a. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a load receiving table lifting / lowering device that is attached to a cargo vehicle and used for loading and unloading loads.

  For example, Patent Document 1 discloses a load receiving table lifting device that is attached to a cargo vehicle and used for loading and unloading loads. The load receiving platform lifting device includes a base bracket fixed to the load receiving platform, a load receiving platform on which a load is placed, an arm having a tip end portion attached to the load receiving stand and a base end portion attached to the base bracket and capable of rotating up and down. And a hydraulic cylinder that rotates the arm up and down. The hydraulic cylinder expands and contracts, so that the load receiving platform can be raised and lowered. In such a load receiving platform lifting apparatus, the load of the load placed on the load receiving stand and the load receiving stand is transmitted to the load receiving platform via the arm and the base bracket (see Patent Document 1).

Japanese Utility Model Publication No. 5-35874 (see FIG. 5)

  When the load receiving platform lifting device is attached to the loading platform of the cargo vehicle via the base bracket, it is necessary to support the load from the loading platform by the loading platform. For this reason, in Patent Document 1, a reinforcing member (L-shaped steel) is separately provided at the rear part of the loading platform in order to reinforce the loading platform. By this reinforcing member, it is possible to prevent the floor plate of the cargo bed from being greatly bent or the floor plate from being permanently deformed. However, in this case, since the load receiving platform lifting device is provided on the load carrier, the number of constituent members increases, and further, the work of attaching the reinforcing member increases, resulting in an increase in cost.

  Therefore, the present invention has been made in view of the above problems, and an object of the present invention is to provide technical means that can eliminate the need for a new reinforcing member when installing the load receiving platform lifting device on the load receiving stand. To do.

  A load receiving platform lifting apparatus according to the present invention is a load receiving platform lifting device that is attached to a freight vehicle provided with a loading platform provided with cross beams extending in the vehicle width direction under a floor board. A base portion that mounts a load receiving platform so as to be able to move up and down, supports a load of the load receiving stand, an elevating drive mechanism that raises and lowers the load receiving stand relative to the base portion, and a fixing member that fixes the base portion to the load receiving platform. The base portion includes a base portion that is disposed above the cross beam and fixed to the cargo bed by the fixing member that is disposed at a position that does not interfere with the cross beam.

  According to the present invention, the load of the load receiving platform is supported by the base portion, and the load acting on the base portion is supported by the cargo platform of the cargo vehicle to which the base portion is fixed. Since the base part of the base part is disposed above the cross beam of the loading platform, the cross beam can receive the load. In this way, since the cross beam already provided in the cargo vehicle is used, the load of the cargo cradle can be supported on the vehicle body side, so that a new reinforcing member is not required to provide the cargo cradle lifting device. be able to. Further, when the base portion of the base portion is positioned above the cross beam and is fixed to the loading platform by the fixing member, the fixing member is disposed at a position that does not interfere with the horizontal beam and the base portion is fixed to the loading platform by the fixing member. be able to.

  Moreover, it is preferable that the fixing member is detachable from the loading platform. According to this fixing member, the load receiving platform lifting device can be removed from the loading platform by removing the fixing member from the loading platform.

  Further, in the load receiving platform elevating device, the base portion is set to a length in the front-rear direction capable of straddling the cross beam in the vehicle front-rear direction, and the load receiving stand is in an upper position on the load platform. The center of gravity position is preferably set so that the center of gravity of the device is disposed substantially above the cross beam. According to this configuration, when the load receiving table lifting device is in the retracted state, the horizontal beam can function as a main reinforcing beam for supporting the weight of the load receiving table lifting device. In other words, the strength of the cross beam can be used effectively. It should be noted that the center of gravity of the device is arranged substantially above the cross beam. This substantially above means not only within the range of the width width of the cross beam (that is, directly above the cross beam) but also the true value of the cross beam. A range in which the width width of the horizontal beam is added to each of the top and front and back is included.

Further, the fixing member is a bolt nut that fastens the base portion and the loading platform, and the base portion is formed with a plurality of bolt holes through which the bolts are inserted. It is preferable that the number of the bolts necessary for fixing the base portion to the loading platform with sufficient fixing strength is larger.
According to this configuration, the bolt hole can be selected so that the bolt as the fixing member does not interfere with the cross beam, the bolt is inserted into the selected bolt hole, and the foundation is fixed to the loading platform by the bolt. Can do.

  According to the present invention, since the cross beam already provided in the freight vehicle is used and the load of the cargo cradle can be supported on the vehicle body side, a new reinforcing member is not required to provide the cargo cradle lifting device. can do. Therefore, it is possible to prevent the cost of the load receiving table lifting device from being increased.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1, FIG. 2, FIG. 3 and FIG. 4 are side views showing an embodiment of the load receiving platform lifting apparatus of the present invention. FIG. 5 is a rear view of the load receiving table lifting device in the state shown in FIG. The load receiving platform lifting / lowering device 1 is attached to a freight vehicle C equipped with a loading platform 11 and is used for loading and unloading loads between the ground and the loading platform 11. A rear side door (opening / closing door) 10 is provided at the rear end portion of the loading platform 11 so as to stand up when the vehicle is traveling. Further, in FIG. 5, a side door 20 is provided at a side end portion in the vehicle width direction on the loading platform 11 so as to stand in a standing state when the vehicle travels.

  Each of these doors 10 and 20 can be opened and closed by being pivoted in the vertical direction by a hinge provided at the edge of the loading platform 11, and standing up from the edge of the loading platform 11 in a closed state (see FIG. 4). 5), and in the open state, the bag 11 hangs downward from the edge of the loading platform 11 (see FIGS. 1 to 3). The loading platform 11 is provided with a securing portion (not shown) that secures the standing doors 10 and 20 in the standing posture. The lashing portion is operated by the user, and is switched between a lashing state in which the doors 10 and 20 are restrained in a standing posture (closed state) and a release state in which the sashing state is enabled. In FIG. 5, the rear screen 10 is in an open state. The doors 10 and 20 are made of a steel plate or the like.

  The load receiving platform lifting / lowering device 1 includes a load receiving stand 2 on which a load is placed. The load receiving stand 2 has a disk-shaped load receiving stand main body 21 having a placement surface 2a on which a load is placed. The illustrated loading platform lifting / lowering device 1 is attached to the rear end portion of the upper surface 11a of the loading platform 11, and the loading platform 2 has a position above the rear end portion of the loading platform 11 and a ground contact position behind the vehicle. Go up and down. The vehicle front-rear direction matches the depth direction of the load receiving platform 2 in the state of FIGS. 1 to 3, and the vehicle width direction (the left-right direction of the vehicle C) matches the width direction of the load receiving platform 2.

  In addition to the load receiving platform 2, the load receiving platform lifting / lowering device 1 includes a base bracket (base portion) 3 attached to the upper surface 11 a of the load receiving platform 11, a support body 7 that supports the load receiving rack 2, a base bracket 3 and a support body. 7 is provided with an arm body 4 that is coupled to a lift cylinder 7, a lift cylinder 5 that expands and contracts, and a power unit 6 that drives the lift cylinder 5. The base bracket 3, the arm body 4, and the support body 7 are provided at the end of one side in the vehicle width direction at the rear part of the loading platform 11 (see FIG. 5). And the goods receiving stand 2 is provided in the position near the center of the vehicle width direction.

  The base bracket 3 is detachably attached to the rear portion of the upper surface 11a of the loading platform 11 by a fixing member including a bolt 12a and nut bodies 27 and 28. Since the base bracket 3 is attached to the loading platform 11 with the bolts 12a and the nut bodies 27 and 28, the loading platform elevating device 1 can be easily attached to the cargo vehicle C, and a bolt hole is provided on the cargo vehicle C side (floor plate 15). No major modification is required.

  The arm body 4 has a first arm 13 and a second arm 14 and constitutes a parallel link. The first arm 13 is a member extending in one direction from the base bracket 3, the base portion 13 a of the first arm 13 is rotatably attached to the upper portion of the base bracket 3, and the tip portion 13 b is the support 7. It is rotatably attached to the upper part of a (side support frame 7a described later). The second arm 14 is a member extending from the base bracket 3 along the first arm 13, the base portion 14 a of the second arm 14 is rotatably attached to the base bracket 3, and the tip portion 14 b is supported. The body 7 (side support frame 7a) is rotatably attached.

  The arm body 4 swings between a standing position (FIG. 1) extending upward from the base bracket 3 and a rear position (FIG. 3) extending rearward and obliquely downward toward the ground. be able to. By this arm body 4, the support body 7 and the load receiving platform 2 can be moved up and down between an upper position above the rear portion of the loading platform 11 (FIG. 1) and a ground contact position (FIG. 3) that contacts the ground behind the vehicle. . Moreover, as shown in FIGS. 1-3, since the arm body 4 comprises the parallel link, it can be raised / lowered with the load receiving stand 2 (load receiving stand main body 21) made into a horizontal attitude | position. According to the above configuration, the base bracket 3 fixed to the loading platform 11 serves as a fixed portion, and the lifting portion is configured by the load receiving platform 2, the support body 7, and the arm body 4, and this lifting portion is connected to the fixed portion. Can move up and down.

  In FIG. 5, the load receiving platform 2 includes the load receiving table main body 21 whose surface is a placement surface 2 a on which a load is placed, and a first support member 22 attached to the load receiving table main body 21. This column member 22 is a member that linearly extends in the width direction of the cargo cradle 2, is fixed to the back side of the cargo cradle body 21, and is further partly outward from the side of the cargo cradle body 21. Is a protruding member. A second support member 23 is provided on the back surface of the cargo receiving body 21. The support member 23 has substantially the same length as the dimension in the width direction of the load receiving body 21. In the illustrated form, the support members 22 and 23 are formed of hollow square pipes and function as beam members (strength members) in the width direction of the load receiving table main body 21.

  The support 7 has a side support frame 7a, and the first support member 22 is attached to the lower part of the side support frame 7a via a hinge part (attachment part) 8. The side support frame 7a has a vertically long box shape, and houses the arm body 4 and the lift cylinder 5 and opens to the front of the vehicle in order to make the arm body 4 and the lift cylinder 5 function.

  FIG. 6 is an explanatory view for explaining the hinge portion 8. The hinge portion 8 is attached to the support 7 so that the load receiving platform 2 can change its posture. The hinge portion 8 is rotatable to the first bracket portion 8a, the first bracket portion 8a fixed to the side support frame 7a, the second bracket portion 8b fixed to the column member 22, and the second bracket portion 8b. As a hinge shaft 8c. The center line of the hinge shaft 8 c is horizontal and the width direction of the load receiving platform 2. The hinge portion 8 allows the load receiving base body 21 fixed to the column member 22 to rotate about the horizontal axis a with respect to the side support frame 7a. As a result, when the vehicle travels without using the load receiving platform 2 for loading and unloading the load, the load receiving platform main body 21 is in an upright position on the loading platform 11 (see FIGS. 4 and 6A), and the loading and unloading of the load is performed. During operation, the load receiving body 21 can be in a horizontal posture (see FIGS. 1 and 6B).

  In FIG. 1, the first column member 22 is attached to an intermediate portion in the depth direction (vehicle longitudinal direction) of the load receiving base body 21 in a horizontal posture. In addition, when the load receiving body 21 is in the standing posture (see FIG. 4), it is an intermediate portion in the height direction. And since the said hinge part 8 is attached to this support | pillar member 22, the rotation center (horizontal axis a) of the load receiving stand 2 is located in the intermediate part of the depth direction of the load receiving stand main body 21 in side view. To do. With this configuration, a portion of the load receiving body 21 on the front side of the vehicle with respect to the horizontal axis a (a portion on the base end 2b side of the load receiving stand 2) is a posture in which the load receiving stand 2 stands (see FIG. 4). ) Is located below the horizontal axis a. In this way, in order to position a part of the cargo bed main body 21 below the horizontal axis a and above the upper surface 11a of the cargo bed 11, the first column member 22 is installed from the upper surface 11a of the cargo bed 11. The position is set high. Specifically, as shown in FIG. 4, the load receiving platform lifting / lowering device 1 is configured such that the column member 22 exists at a height position facing the upper part of the upright door 10.

  And in order to make it the use state (state of FIGS. 1-3) which loads and unloads a load, the load receiving stand 2 is rotated by the hinge part 8, the load receiving stand main body 21 is made into a horizontal posture, and the mounting surface 2a Set to face up. In FIG. 6, a contact portion 9 a and a contacted portion 9 b are provided between the first bracket portion 8 a and the second bracket 8 b of the hinge portion 8 in order to maintain the load receiving table main body 21 in a horizontal posture. In FIG. 6, when the contact portion 9a made of a bolt is provided in the second bracket portion 8b and the load receiving base body 21 is in a horizontal posture, the contact portion 9a (the head of the bolt) is one of the first bracket portions 8a. It abuts on the part (contacted part 9b). This restricts the load receiving table body 21 from rotating too much beyond the horizontal posture.

  Then, as shown in FIG. 4 and FIG. 6 (a), the load receiving platform 2 is placed at an upper position on the loading platform 11 and rotated horizontally by 90 ° at the hinge portion 8. As shown in FIG. It will be in the folded state folded with respect to the side part support frame 7a. In this state, the base end 2b of the load receiving platform 2 is in the lower position, the front end 2c is in the upper position, and the base end 2b and the front end 2a are arranged on the same vertical plane.

In FIG. 5, the load receiving platform lifting / lowering device 1 includes a first lock device 17 for maintaining the load receiving stand 2 in the folded state. The first locking device 17 restricts the load receiving platform 2 in the folded state from rotating in the direction of falling backward. The lock device 17 is operated by an operator, and is switched between a locked state in which the load receiving platform 2 is fixed in a folded state and an unlocked state in which the fixing is released.
Furthermore, the load receiving platform lifting / lowering device 1 has a second lock device 18 for maintaining the load receiving stand 2 in a horizontal posture. The second locking device 18 restricts the load receiving base body 21 in a horizontal posture from rotating in a direction in which it is in a standing posture. The lock device 18 is operated by an operator, and is switched between a locked state in which the load receiving platform 2 is fixed in a horizontal position and an unlocked state in which the fixation is released.

  1 to 3, the lift cylinder 5 is a hydraulic cylinder (fluid actuator) that expands and contracts to raise and lower the load receiving table 2, and is attached between the arm body 4 and the support body 7. One end 5a of the lift cylinder 5 is rotatably attached to the first arm 13, and the other end 5b of the lift cylinder 5 is rotatably attached to the lower part of the side support frame 7a.

  The power unit 6 is a hydraulic unit that expands and contracts the lift cylinder 5, and the power unit 6 and the lift cylinder 5 constitute an elevating drive mechanism that elevates and lowers the load receiving platform 2. When the power unit 6 switches the supply of hydraulic oil (working fluid) to the lift cylinder 5, the lift cylinder 5 can perform an expansion / contraction operation. The operation of the power unit 6 is controlled by a control device (not shown) provided in the power unit 6. When the operator operates the operation unit 7e (see FIG. 5) provided on the side support frame 7, the control device causes the power unit 6 to perform a predetermined operation.

  Although not shown, the power unit 6 has a tank for storing hydraulic oil, a pump for discharging hydraulic oil, a motor for driving the pump, and hydraulic oil applied to any one of the head side and the rod side of the lift cylinder 5. The hydraulic unit is integrally provided with a switching valve for switching and supplying the power unit 6. The power unit 6 is attached to the side support frame 7 a together with the lift cylinder 5.

  According to this lift drive mechanism, the power unit 6 supplies hydraulic oil to the rod side of the lift cylinder 5, whereby the lift cylinder 5 performs a shortening operation and includes the load receiving platform 2 (FIG. 3) on the ground. As shown in FIG. 1, the loading platform 2 can be raised to the upper position above the loading platform 11 through the state shown in FIG. 2. Then, when the power unit 6 supplies hydraulic oil to the head side of the lift cylinder 5, the lift cylinder 5 performs an extension operation, and the load receiving platform 2 descends from the upper position to the ground. By this elevating drive mechanism, an elevating operation for loading and unloading the load receiving platform 2 carrying the load between the ground and the loading platform 11 is performed on the base bracket 3.

  A structure for mounting the load receiving device lifting device to the load carrier 11 will be described. 7, 8, and 9 are a front view of the mounting portion of the base bracket 3 in the loading platform 11 as viewed from the rear of the vehicle, a side view of the mounting portion as viewed from the side of the vehicle, and a plan view of the mounting portion. is there. A freight vehicle C to which the load receiving platform lifting apparatus of the present invention is attached is a vehicle including a loading platform 11 in which a cross beam 16 extends below a floor plate 15 in the vehicle width direction. A plurality of cross beams 16 are arranged at intervals in the vehicle front-rear direction. The cross beam 16 can mainly resist the bending force of the loading platform 11 in the vehicle width direction. The cross beam 16 is made of a steel material having a U-shaped cross section that opens upward, and is fixed to the floor plate 15 by welding. For this reason, the cross beam 16 cooperates with a part of the floor board 15, functions as a box beam, and has high rigidity. The floor plate 15 is formed with a ridge 15a extending in the vehicle front-rear direction. The plurality of ridges 15a are arranged at intervals in the vehicle width direction. This ridge portion 15a functions as a reinforcing rib of the companion 15 and can mainly counter the bending force of the loading platform 11 in the vehicle longitudinal direction.

  According to the structure of the load receiving platform lifting / lowering device 1, the base bracket 3 is mounted with the load receiving platform 2 so that it can be lifted / lowered via the arm body 4. It is something to support. The base bracket 3 has a bracket main body portion 25 to which the base portion of the arm body 4 is attached, and a base portion 26 that fixes the bracket main body portion 25 to the loading platform 11. The base portion 26 is a planar member disposed on a horizontal plane that is placed on the floor board 15, and the bracket main body portion 25 is a member that rises upward from the base portion 26.

  Specifically, the bracket main body 25 includes a pair of side wall portions 25a and 25a, a front wall portion 25b, a rear wall portion 25c, and a rib plate 25d that face each other in the width direction. A base portion of the arm body 4 is attached to the side wall portion 25a by a shaft member. The base portion 26 includes front and rear first and second flat plate portions 26a and 26b, and left and right third and fourth flat plate portions 26c and 26d. The front first flat plate portion 26a and the front wall portion 25b are formed by bending a single plate into an L shape (the same applies to other flat plate portions and wall portions). 3 are made of steel, and each member is assembled by welding, and the bracket main body 25 and the base 26 are configured as an integral unit.

  In FIG. 9, the base portion 26 is formed with a plurality of bolt holes 26e (11 in FIG. 9) penetrating in the vertical direction. The number of bolt holes 26e is larger than the number of bolts 12a (four in FIG. 9) necessary for fixing the base bracket 3 to the loading platform 11 with sufficient fixing strength. Hereinafter, the number of bolts 12a is referred to as the required number of bolts. Further, the required number of bolts is preferably 4 or more, and preferably less than the number of bolt holes 26e.

  The load receiving platform lifting / lowering device 1 includes the bolt 12a as a first fixing member for fixing the base bracket 3 to the loading platform 11, and nut bodies 27 and 28 as second fixing members. In FIG. 8, the first nut body 27 is provided below the floor plate 15 and further rearward of the transverse beam 16 a at the rear end of the vehicle, and the second nut body 28 is disposed below the floor plate 15. Therefore, it is provided in front of the transverse beam 16a at the rear end of the vehicle. Each of the nut bodies 27 and 28 has the same configuration. The nut body 27 (28) includes a frame 27a (28a) that is long in the vehicle width direction and has a hole for inserting the bolt 12a, and the frame 27a (28a). And a nut 27b (28b) to which the bolt 12a is screwed. The frames 27a and 28a are made of a steel material having a U-shaped cross section that opens downward.

  The load receiving table lifting / lowering device 1 has a plurality of seat plates 29 for fixing the base bracket 3. The seat plate 29 is interposed between the floor plate 15 and the base portion 26, and is particularly placed on a flat surface portion of the floor plate 15 where the protruding strip portion 15 a does not exist, and the bolt 12 a It is disposed at a joint portion with the nut bodies 27 and 28. A hole sufficiently larger than the diameter of the bolt 12a is formed through the seat plate 15 in the thickness direction. In addition, the thickness of the seat plate 29 is set to be equal to or larger than the height dimension of the protrusion 15a from the flat surface portion. With this seat plate 15, the bolt 12 a can be firmly fastened to the nut bodies 27 and 28, and the base bracket 3 can be stably fixed to the load receiving table 2.

  According to the above mounting structure, the base bracket 3 is placed on the floor plate 15 of the loading platform 11 via the seat plate 29 at a desired position (the position of the rear left end of the loading platform 11 in the illustrated example). At this time, the base bracket 3 is placed on the floor plate 15 at a position where the base portion 26 straddles the last cross beam 16a in the front-rear direction and straddles the ridge portion 15a at the endmost portion in the vehicle width direction. Since the base portion 26 of the base bracket 3 is provided with a plurality of bolt holes 26e, when the bolt 12a is inserted from the bolt holes 26e, the bolt holes 26e do not interfere with the cross beam 16a. Are selected for the same number as the required number of bolts. Furthermore, when making this selection, the nut bodies 27 and 28 provided under the floor board 15 need not interfere with the cross beam 16a. Furthermore, it is necessary to select at least one before the cross beam 16a and at least one after the cross beam 16a. In FIG. 9, two bolt holes 26e in front of the cross beam 16a and two bolt holes 26e in the rear of the cross beam 16a are selected, and the bolts 12a are inserted into these bolt holes 26e. In addition, the 2nd bolt hole 15b is formed in the floor board 15 part just under this selected bolt hole 26e (1st bolt hole 26e) (refer FIG. 8).

Since the number of bolt holes 26e larger than the necessary number of bolts is formed in the base portion 26 in advance, the selection is possible. Then, the bolt 12a is inserted into the first bolt hole 26e and the second bolt hole 15b, and the bolt 12a is fastened to the nuts 27b and 28b of the nut bodies 27 and 28 provided under the floor plate 15. Thereby, the base bracket 3 can be firmly fixed to the loading platform 11.
With this mounting structure, the base portion 26 of the base bracket 3 is fixed to the loading platform 11 with bolts 12a arranged on the cross beam 16a and arranged at a position not interfering with the cross beam 16a.

  Further, as shown in FIG. 1, the base portion 26 is set to a length in the front-rear direction capable of straddling the cross beam 16 a in the vehicle front-rear direction, and the load receiving platform 2 is in an upper position on the load platform 11. In the retracted state, each device constituting the load receiving platform lifting apparatus 1 is disposed at a predetermined position so that the center of gravity G of the load receiving platform lifting apparatus 1 is disposed substantially above the cross beam 16a. A center of gravity position of 1 is set. The substantially upper direction includes not only within the range of the width of the horizontal beam 16a (that is, directly above the horizontal beam 16a) but also the width of the horizontal beam 16a immediately above and behind the horizontal beam 16a. The range with added dimensions is included. In the case of FIG. 1, the center of gravity G exists within a range having the width width of the horizontal beam 16a from directly above the horizontal beam 16a to the front.

  According to this structure, the said horizontal beam 16a can be functioned as a main reinforcement beam for supporting the weight of the load receiving table raising / lowering apparatus 1 in a retracted state. That is, the strength of the horizontal beam 16a can be effectively utilized. And most of the weight of the load receiving platform elevating device 1 in the retracted state can be received by the cross beam 16a, preventing a large concentrated load from acting only on the thin floor plate 15 and preventing the deformation of the floor plate 15. it can. In particular, since the freight vehicle C travels in this retracted state, it is possible to prevent the floor plate 15 from being deformed even if the load of the load receiving platform lifting / lowering device 1 is repeatedly applied to the load carrier 11 due to vibration of traveling or the like. .

  According to the above embodiment, the load of the load receiving platform 2 and the load receiving platform 2 is supported by the base bracket 3, and the load acting on the base bracket 3 is the load platform 11 of the cargo vehicle C to which the base bracket 3 is fixed. Supported. Since the base part 26 of the base bracket 3 is disposed above the cross beam 16a of the loading platform 11, the cross beam 16a can receive the load. In this way, the cross beam 16a already provided in the cargo vehicle C is used, and the load of the cargo cradle 2 can be supported on the vehicle body side. It is possible to eliminate the need for a reinforcing member. Therefore, it is possible to prevent the cost of the cargo receiving platform lifting / lowering device 1 from becoming high. Further, when the base portion 26 of the base bracket 3 is positioned on the cross beam 16a and is fixed to the loading platform 11 with the bolt 12a, the bolt 12a is disposed at a position where it does not interfere with the cross beam 16a, and the base bracket 3 is mounted with the bolt 12a. Can be fixed to the loading platform 11.

  Further, the bolt 12a can be attached to and detached from the loading platform 11. When the loading platform lifting / lowering device 1 is not used, the bolt 12a is loosened by a tool and the bolt 12a is removed from the loading platform 11 so that the loading platform lifting / lowering device 1 is removed. It can be removed from the loading platform 11. If the loading platform lifting / lowering device 1 is permanently installed on the loading platform 11, the loadable weight of the cargo vehicle C is reduced by its own weight or the loadable space on the loading platform 11 is reduced. Therefore, this can be prevented. This is particularly effective when the cargo vehicle C is a light truck having a relatively small loadable weight and a relatively small loading space on the loading platform 11.

Since the load receiving platform lifting / lowering apparatus 1 of the present invention can be detached from the load receiving platform 11, the load receiving platform lifting / lowering apparatus 1 is provided with a suspension member for hanging the load receiving platform lifting / lowering apparatus 1 with a crane or the like. In FIG. 5, the load receiving platform lifting / lowering device 1 is provided with a restricting portion 19 that prevents the load receiving platform 2 that is rotated by the hinge portion 8 from being turned upside down so as to fall further toward the front side of the vehicle. Yes. The suspension member can be attached to a part of the restricting portion 19.
Specifically, in FIG. 10, the restricting portion 19 includes a first contact member 19a provided on the side portion of the load receiving platform 2 and a second contact provided on the support body 7 (side support frame 7a). And a contact member 19b. The first abutting member 19a abuts on the second abutting member 19b, thereby restricting the load receiving platform 2 in the standing posture from rotating so as to further fall to the vehicle front side. Therefore, the suspension member 19c can be attached to the upper part of the second contact member 19b. That is, a screw hole 19d is formed in the upper part of the second contact member 19b, and a suspension member 19c made of an eyebolt is screwed into the screw hole 19d.
According to this structure, the hook of a crane (not shown) can be engaged with the suspending member 19c, and the load receiving platform lifting / lowering device 1 can be suspended. And since the control part 19 (2nd contact member 19b) which controls rotation of the load receiving stand 2 is used also as a bracket which attaches the suspension member 19c, a number of parts is reduced and manufacturing cost is reduced. Can do.

  Furthermore, the load receiving platform lifting / lowering device 1 of the present invention can remove the load receiving platform 2 from the support 7 while leaving the base bracket 3, the arm body 4, the lifting drive mechanism, and the support portion 7 on the load platform 11. FIG. 11 is a schematic configuration diagram of the hinge portion 8 of FIG. 6A viewed from the right side. The second bracket portion 8b on the load receiving platform 2 side is rotatably attached to the first bracket portion 8a on the support body 7 side by a hinge shaft 8c. The hinge shaft 8c is prevented from coming off in the direction of the shaft center (the horizontal shaft center a) (in the direction of arrow L in FIG. 11) by a pin member 51 attached to the end of the hinge shaft 8c so as to be detachable. By detaching 51 from the hinge shaft 8c, the hinge shaft 8c can be extracted from the hinge portion 8. By extracting the hinge shaft 8 c, the first bracket portion 8 a and the second bracket portion 8 b can be separated, and the load receiving platform 2 can be easily detached from the support body 7.

  12 is a view of the hinge portion 8 shown in FIG. 11 as viewed from the side (in the direction of arrow R in FIG. 11). 11 and 12, the first bracket portion 8a is provided with a regulating plate 8d at the end. The restriction plate 8d is formed with a hole 8f through which the hinge shaft 8c is inserted, and an engaging portion 51b with which the head portion 51a of the pin member 51 is engaged. The engaging part 51b in FIG. 12 is formed by a notch. A through hole 8e penetrating in the diametrical direction is formed at the end of the hinge shaft 8c, and the hinge shaft 8c is inserted into the first bracket portion 8a by inserting the pin body 51c of the pin member 51 into the through hole 8e. It is prevented from falling out. Then, with the pin member 51 attached to the through hole 8e of the hinge shaft 8c, the head portion 51a engages with the engaging portion 51b. According to this engagement, even if the load receiving platform 2 (second bracket portion 8b) rotates around the horizontal axis, the hinge shaft 8c can be freely rotated because it is restrained by the first bracket portion 8a. First, the head portion 51a of the pin member 51 always exists on the vehicle rear side.

  For this reason, the operator can grasp the ring part 51d attached to the head part 51a from the rear of the vehicle and extract the pin member 51 from the hinge shaft 8c. After this operation, the hinge shaft 8c is extracted from the hinge part 8. be able to. If the head portion 51a is configured not to engage with the engaging portion 51b, the hinge shaft 8c also rotates when the load receiving platform 2 (second bracket portion 8b) rotates, and the hinge shaft 8c becomes the pin member 51. , The ring portion 51d of the pin member 51 faces in a direction other than the rear of the vehicle, and it becomes difficult for the operator to pull out the pin member 51. Further, when the head portion 51a of the pin member 51 is lowered, the pin member 51 may fall due to its own weight, and the hinge shaft 8c may come out of the hinge portion 8 without permission. However, according to the configuration of the present invention, this can be prevented.

  Further, as shown in FIG. 13, the load receiving table lifting apparatus 1 according to the present invention can move up and down between the ground and the loading platform 11 using a (small) tiller P as a load. The cultivator P includes a main body 55, a handle 56 extending from the main body 55 and gripped by a user, and a wheel 57 and a rotary 58 attached to the main body 55. The rotary 58 has a plurality of blades, and is a member that rotates to cultivate the field. In order to use such a power tiller P as a load, the load receiving platform lifting / lowering device 1 includes a rotary support 60 that supports the rotary 58. The rotary support 60 is detachably attached to the load receiving table main body 21 by bolts and nuts (not shown).

  FIG. 14 is a plan view of the cargo receiving platform 2. As shown in FIGS. 13 and 14A, the rotary support 60 has left and right attachment shaft portions 60b and a central connection shaft portion 60a that connects the left and right attachment shaft portions 60b. It is a U-shaped member in a plan view and can be constituted by a pipe. The rotary 58 can be mounted on the connecting shaft portion 60a in a state in which the rotary support 60 is attached to the tip portion 2c side of the load receiving platform 2. Further, the rotary support 60 can be attached to the load receiving table main body 21 so that the position of the rotary support 60 can be changed in the longitudinal direction of the vehicle, and the longitudinal position of the connecting shaft portion 60a can be adjusted according to the size of the tiller P.

  On the other hand, as shown in FIG. 14 (b), the rotary support 60 functions as a load fall prevention member on the load receiving platform 2 by changing the rotary support 60 to the rear end 2 c side of the load receiving platform 2. be able to. That is, the rotary support 60 is fixed to the load receiving platform 2 with the bolt and nut so that the rotary support 60 is placed on the mounting surface 2 a and the connecting shaft portion 60 a is positioned at the base end 2 b of the load receiving platform 2. Thereby, since the rotary support 60 becomes a stepped portion that is raised from the placement surface 2a, it is possible to prevent the load on the placement surface 2a from falling (sliding down or rolling down).

  Moreover, in FIG. 3, the goods receiving stand 2 has the slope part 65 in the front-end | tip part 2c side. The slope portion 65 constitutes an inclined surface 65a formed between the mounting surface 2a, which is substantially horizontal, and the ground in order to facilitate loading and unloading of luggage between the mounting surface 2a and the ground. . FIG. 15 is an explanatory diagram of the slope portion 65. The slope portion 65 is attached to the load receiving body 21 so as to be rotatable around a horizontal axis by a slope hinge portion 66. FIG. 16 is a view of the slope portion 65 and the slope hinge portion 66 as viewed from the back side of the load receiving platform 2 and shows both the left and right side portions in the width direction. Hinge portions 66 are provided on both sides in the width direction on the front end portion 2 c side of the load receiving platform 2. Each hinge part 66 has the 1st member 66a and the 2nd member 66b, the 1st member 66a is being fixed to the load receiving base main body 21, and the 2nd member 66b is being fixed to the slope part 65. As shown in FIG. The first member 66a has a pin 67a protruding toward one side in the width direction (arrow J direction), and the second member 66b has a hole 67b into which the pin 67a is inserted. The axis of the pin 67a is the center of rotation of the slope portion 65.

  The slope portion 65 is attached to the load receiving body 21 by moving the slope 65 to the other side in the width direction (arrow K direction) with respect to the load receiving body 21 to insert the pin 67a into the hole 67b. Is done by. And the bolt 68 is attached to the edge part of the width direction one side (FIG. 16 left side) of the cargo receiving stand main body 21. As shown in FIG. The bolt 68 is attached in the vicinity of the hinge portion 66 on one side in the width direction, and restricts the second member 66b from coming out. That is, when the pin 67a of the first member 66a tries to come out from the hole 67b of the second member 66b, the bolt 68 comes into contact with the second member 66b. In order to reduce the height of the load receiving platform 2 when the load receiving platform 2 is stored in the standing posture, the bolt 68 may be removed from the load receiving table main body 21 in order to remove the slope portion 65 from the load receiving table main body 21. The removal and attachment work of the slope portion 65 is easy.

  As shown in FIGS. 15 and 16, the head of the bolt 68 can abut on the back surface of the rotating slope portion 65. Therefore, the inclination angle of the slope portion 65 (inclined surface 65a) during the lifting operation of the load receiving table 2 can be changed by adjusting the amount of protrusion of the bolt 68 from the load receiving table main body 21. In FIG. 15, the slope portion 65 is located on the distal end side of the hinge portion 66 and has a first inclined portion 69 a having the inclined surface 65 a, and the proximal end portion side of the load receiving platform 2 relative to the hinge portion 66. And a second inclined portion 69b existing in the. In a state where the load receiving platform 2 is grounded and away from the ground, the first inclined portion 69a is rotated downward, the second inclined portion 69b is rotated upward, and the back surface of the first inclined portion 69a is provided. The head of the bolt 68 is in contact. In this state, the second inclined portion 69b is above the placement surface 2a and is away from the placement surface 2a. The end of the second inclined portion 69b can contact the load placed on the placement surface 2a, and the load can be prevented from rolling down (sliding down) from the placement surface 2a to the first inclined portion 69a. it can.

  FIG. 17 is an electrical wiring diagram between the load receiving table elevating device 1 and the vehicle body side battery B. The first arm 13 or the second arm 14 of the arm body 4 of the load receiving platform elevating device 1 is constituted by a hollow pipe member. In FIG. 17, the first arm 13 is a pipe member having a circular cross section. By using the first arm 13 as a pipe member, the power cable Y for connecting the battery B mounted on the vehicle body and the power unit 6 of the load receiving device lifting / lowering device 1 is passed from the base bracket 3 through the second arm 14. It can be led to the part support frame 7a. According to this configuration, even if the arm body 4 is rotated, it is possible to prevent the power cable Y from being sandwiched between the base bracket 3 and the side support frame 7a. It is possible to prevent the cable Y from being cut when the cable Y is sandwiched and from being unable to lift and lower the load receiving platform 2. Further, the power cable Y is preferably inserted into the first arm 13 while being housed in a flexible (resin) tube. In addition, a hole (not shown) for leading the cable Y extending from the battery B and passing under the floor plate 15 to the base bracket 2 and the second arm 14 is provided directly below the base bracket 3 in the floor plate 15. Is formed.

Moreover, the load receiving platform lifting / lowering apparatus of the present invention is not limited to the illustrated form, but may be of another form within the scope of the present invention. In the above-described embodiment, the case where the load receiving platform elevating device 1 is installed at the rear left end of the load loading platform 11 and the load receiving platform 2 descends to the rear of the vehicle has been described. You may attach the load receiving device raising / lowering apparatus 1 so that the load receiving stand 2 may descend to the side of a vehicle.
Further, although the cargo vehicle C is not shown in the figure on the loading platform 11, a cargo box may be mounted. In this case, the rear saddle 10 is present, but the side saddle 20 is present. Not done. And in the state which does not use the load receiving stand 2, the load receiving stand raising / lowering apparatus 1 will be in the state accommodated in the cargo box.

It is a side view which shows one Embodiment of the cargo receiving stand raising / lowering apparatus of this invention. It is a side view of a load receiving table raising / lowering apparatus, and has shown the state which has a load receiving stand in the middle position of the raising / lowering direction. It is a side view of a load receiving table raising / lowering apparatus, and has shown the state which has a load receiving stand in a grounding position. It is a side view of a load receiving table raising / lowering device, and shows a state where the load receiving stand stands at an upper position. It is a rear view of the load receiving table raising / lowering apparatus of FIG. It is explanatory drawing explaining a hinge part (attachment part). It is the front view which looked at the attaching part of the base bracket in a loading platform from the vehicle back. It is the side view which looked at the attaching part from the vehicle side. It is a top view of an attaching part. It is explanatory drawing of the control part which prevents that the load receiving stand made into the standing posture falls so that it may fall down to the vehicle front side. It is the schematic block diagram which looked at the hinge part of Fig.6 (a) from the right side. It is the figure which looked at the hinge part shown in FIG. 11 from the side. It is explanatory drawing in the case of raising / lowering a tiller as a load. It is a top view of a receiving stand. It is explanatory drawing of a slope part. It is the figure which looked at the slope part and the hinge part for slopes from the back surface side of the load receiving stand, and has shown the right and left both sides of the width direction. It is an electrical wiring diagram between a load receiving table raising / lowering apparatus and a vehicle body side battery.

Explanation of symbols

1 Cargo stand lifting device 2 Cargo stand 3 Base bracket (base part)
5 Lift cylinder (lifting drive mechanism)
6 Power unit (elevating drive mechanism)
11 Loading platform 12a Bolt (fixing member)
15 Floor plate 16, 16a, 16b Cross girder 25 Bracket body part 26 Base part 26a Bolt hole 27, 28 Nut body (fixing member)
C Cargo vehicle G Center of gravity of lifting platform

Claims (4)

A loading platform lifting device attached to a freight vehicle provided with a loading platform provided with a horizontal beam extending in the vehicle width direction under the floor board,
A load receiving platform on which a load is placed, a base portion that is mounted so as to be able to move up and down and supports a load of the load receiving table, a lifting drive mechanism that moves the load receiving table up and down relative to the base portion, and the base portion A fixing member for fixing to the loading platform,
The base portion has a foundation portion that is disposed above the cross beam and fixed to the loading platform by the fixing member that is disposed at a position that does not interfere with the cross beam. Stand lifting device.   The cargo receiving platform lifting apparatus according to claim 1, wherein the fixing member is detachable from the cargo platform.   The base portion is set to a longitudinal length that can straddle the cross beam in the vehicle longitudinal direction, and the center of gravity of the device is set in the retracted state in which the load receiving table is in an upper position on the load platform. The load receiving platform lifting / lowering device according to claim 1 or 2, wherein a gravity center position is set so as to be disposed substantially above. The fixing member is a bolt and nut that fastens the foundation and the loading platform,
The base portion is formed with a plurality of bolt holes through which the bolts are inserted, and the number of bolt holes is necessary for fixing the base portion to the loading platform with sufficient fixing strength. The load receiving platform elevating device according to any one of claims 1 to 3, wherein there are more than the number of bolts.

Images