JP2005008115A - Load support hoisting device and wire replacing method of it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a load support hoisting device capable of easily replacing a wire without large-scale equipment such as a crane, and to provide a wire replacing method. <P>SOLUTION: A load support is locked on a vehicle body side in a vertical storage state, and a wire maintenance hole 2g is provided on a side wall of a column (strut) 2 adjacent to a connecting portion of the wire 15 and a slider 3 in a state that the connecting portion is in a predetermined position. A movable end 15b of the wire 15 of which tension is loosed is pulled from the maintenance hole 2g, and connection with the slider 3 is released. The same is done with the other column 2. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a load receiving table lifting device for vertically moving a load receiving table using a wire.
[0002]
[Prior art]
In a load carrier lifting device that vertically lifts and lowers a load carrier using a wire (for example, see Patent Document 1), a slider moves up and down in a pair of left and right columns (posts) provided vertically at the rear of a vehicle body. The cargo cradle connected to is raised and lowered. The pair of columns are connected in the vehicle width direction by a cross member, and one end (fixed end) of the wire is fixed in the cross member. The other end (movable end) of the wire is connected to the slider. The wire is tensioned by the extension operation of the piston rod of the cylinder on the way from the fixed end to the movable end, and the slider moves up and down according to the expansion and contraction operation of the cylinder.
[0003]
In the load receiving platform lifting apparatus using the wire as described above, the wire deteriorates according to the use time, and therefore, it is necessary to periodically replace it with a new wire. In order to replace the wire, conventionally, the rear portion of the vehicle body is first lifted with a crane, and the slider is pulled downward from the lower end of the column to expose the connecting portion between the slider and the movable end of the wire. In this state, the connection portion is disconnected, and the cover of the cross member is removed to remove the fixed end of the wire. In this way, it is possible to pull out the wire whose both ends are free. Then, install a new wire in the reverse order.
[0004]
[Patent Document 1]
JP 2003-112547 A (pages 3 to 5, FIGS. 3 and 6)
[0005]
[Problems to be solved by the invention]
However, since the conventional load receiving table elevating device lifts the rear part of the vehicle body with a crane as described above, a large-scale facility is required and the operation is not easy.
In view of the conventional problems as described above, the present invention provides a load receiving device lifting / lowering device capable of easily replacing wires without a large facility such as a crane, and such wire replacement. It aims to provide a method.
[0006]
[Means for Solving the Problems]
The present invention includes a pair of support columns erected at an end of a vehicle body, a cross member provided in a lateral direction between the pair of support columns and provided with a working opening, and a cylinder provided in the cross member. A slider provided to be movable up and down in the column, a load receiving table supported by the slider, and one end fixed in the cross member to the other end connected to the slider. A load receiving platform lifting apparatus including a wire that is stretched by engaging an operating point of a cylinder and moves the other end in accordance with an expansion / contraction operation of the cylinder, and moves the slider up and down. The wire maintenance hole is formed in the side wall of the support column in the vicinity of the connection portion in a state where the connection portion is located at a predetermined position in the support column.
[0007]
The load receiving device lifting / lowering device configured as described above uses the wire maintenance hole if the wire tension is relaxed in a state where the connection portion between the wire and the slider is close to the hole due to the presence of the wire maintenance hole. Thus, the other end (movable end) of the wire and the slider can be attached and detached. Further, the one end (fixed end) of the wire is detachable from the opening of the cross member. That is, the wire can be replaced without lifting the rear part of the vehicle body and removing the slider from the column.
[0008]
Further, in the load receiving device lifting apparatus, the wire maintenance hole is formed in the vicinity of the connection portion with the wire when the slider is at the rising end position, and the load receiving stand stowed and stored from the rising end position is mounted on the vehicle body. A locking device that locks to the side may be provided.
In this case, if the stowage stowed and stowed is locked to the vehicle body side by the locking device, the load receiving stand is fixed to the car body without depending on the wire. Therefore, the lock device for standing storage can be used also as the lock device for wire replacement, and it is not necessary to provide a separate device for locking the load receiving table for wire replacement. Can be prevented.
[0009]
Further, the present invention is a wire replacement method for a load receiving platform lifting apparatus that lifts and lowers a load receiving platform by moving a slider supporting the load receiving platform up and down in a state suspended from a wire, 1) The load receiving platform and the slider are released from the suspended state by the wire by restricting the operation thereof, (2) the tension of the wire is relaxed, and (3) the fixed end of the wire is connected. And free the connection between the movable end of the wire and the slider from the wire maintenance hole formed in the column, and (4) from any hole formed in the column. The wire is pulled out, (5) a new wire is put into the support through the hole, and (6) the movable end of the new wire is connected to the slider from the wire maintenance hole. Stretched in a manner to fix the fixed end to the vehicle body, it is characterized in applying a predetermined tension to (7) the new wire.
[0010]
In the wire replacement method for the load receiving platform lifting device as described above, after releasing the load receiving platform and the slider from the suspended state, the wire tension is loosened, the fixed end is disconnected and the free state is set. The connection between the movable end of the wire and the slider can be released from the wire maintenance hole formed in the wire. Further, when the movable end of a new wire is connected to the slider, the connection can be made from the wire maintenance hole. That is, the wire can be replaced without lifting the rear part of the vehicle body and removing the slider from the column.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 and FIG. 2 are views of the rear part of a vehicle equipped with a load receiving platform lifting apparatus according to an embodiment of the present invention as viewed from the side and the rear. 1 and 2, columns (posts) 2 serving as guides for the lifting operation of the load receiving table are erected at the left and right rear ends of the cargo box (container) 1 a of the vehicle body 1. The column 2 is formed by welding two types of hollow members 2a and 2b made of a square pipe or a channel material, and is provided with an opening and a cutout as necessary. A slider 3 is accommodated in the rear hollow member 2a so as to be movable up and down. The load receiving platform 4 is supported by a pair of left and right sliders 3 and is rotatable about the pin 5 in the clockwise direction of FIG. 1 and FIG. 2 is in a retracted state in which it is supported in a substantially vertical standing posture, and is fixed to the vehicle body side by lock devices 6 and 7. A cross member 8 extending in the lateral direction (vehicle width direction) is provided between the pair of left and right columns 2.
[0012]
3A is a view of the slider 3 as viewed from the side, and FIGS. 3B, 3C, and 3D are cross-sectional views taken along line BB and line CC in FIG. 3A, respectively. It is sectional drawing and DD sectional view taken on the line. The slider 3 is formed by welding two plates 31 and 32 so as to have a T shape with a horizontal cross-sectional shape. Twin-wheel rollers 33 and 34 are rotatably attached to the plate 31 at positions near the upper end and slightly below the middle. The upper roller 33 is attached so that the outer peripheral surface protrudes to the right, and the lower roller 34 is attached so that the outer peripheral surface protrudes to the left. A bracket 35 for supporting the cargo cradle is welded to the lower end of the plate 32. A wire bracket 36 for connecting wires 15 and 17 to be described later is welded to the left side near the upper end of the plate 31.
[0013]
Returning to FIG. 1, the roller 33 of the slider 3 is in contact with the inner surface on the rear side (right side in the figure) of the hollow member 2a of the column 2, while the roller 34 is the inner surface of the front side of the hollow member 2a. Is in contact with The slider 3 can move up and down with respect to the column 2 while rolling the rollers 33 and 34 in a state where the load receiving platform 4 is horizontally deployed. FIG. 4 shows the ascending end position (solid line) and the descending end position (two-dot chain line) of the load receiving platform 4 deployed horizontally. When the upper end portion of the slider 3 comes into contact with a stopper (reference numeral 19 in FIG. 8) provided inside the column 2, the position is the rising end. Further, when the load receiving platform 4 is landed, the position becomes a practically descending end.
[0014]
Next, a driving mechanism of the slider 3 using a wire or the like will be described. FIG. 5 is a perspective view of the rear portion of the vehicle, showing the drive mechanism housed inside the pair of columns 2 and the cross member 8. A cylinder (hydraulic cylinder) 9 is provided in the cross member 8. The left end of the cylinder 9 is fixed to the cross member 8, and a movable sheave 10 that is movable in the vehicle width direction is attached to the tip of the piston rod 9a. Further, side sheaves 11 and 12 are attached to both ends of the cross member 8, and are rotatable at the respective positions. Further, top sheaves 13 and 14 are attached in the vicinity of the upper ends of the left and right columns 2 and are rotatable at the respective positions.
[0015]
The right and left wires 15 (one-dot chain line) have a fixed end 15a inserted through a wire bracket 16 fixed in the cross member 8 and connected (retained) with a double nut. . The wire 15 is wound around the movable sheave 10, the left side sheave 11, the right side sheave 12, and the right top sheave 14 in this order from the fixed end 15 a, and the movable end 15 b is connected to the wire bracket 36 ( It is inserted through (Fig. 3) and connected (prevented from coming off) by a double nut.
[0016]
On the other hand, the fixed end 17a of the left wire 17 (solid line) is inserted into a wire bracket 18 fixed in the cross member 8 and connected (prevented from coming off) with a double nut. The wire 17 is wound around the movable sheave 10, the left side sheave 11, and the left top sheave 13 in this order from the fixed end 17a, and the movable end 17b is inserted into the wire bracket 36 (FIG. 3) of the left slider 3. It is connected (prevented from coming off) by a double nut.
The wires 15 and 17 wound as described above are stretched by engaging the movable sheave 10 as the operating point of the cylinder 9 between the fixed ends 15a and 17a and the movable ends 15b and 17b, respectively. .
[0017]
A constant tension is applied to the wires 15 and 17 by moving the piston rod 9a of the cylinder 9 in the extending direction, so that the load receiving platform 4 (FIG. 4) can be supported. Further, when the first sheave 10 is moved to the right by the extending operation from the illustrated position, the movable ends 15b, 17b of the wires 15, 17 are moved upward by an equal amount in synchronization with each other. Thereby, the receiving stand 4 can be raised. Conversely, when the first sheave 10 is returned by the contraction operation, the movable ends 15b and 17b of the wires 15 and 17 that receive the load of the load receiving table 4 and the like move downward in the same amount in the left and right directions, and the load receiving table 4 Can be lowered.
[0018]
Next, maintenance openings provided in the column 2 and the cross member 8 will be described. FIG. 6A is a perspective view of the rear part of the vehicle showing these openings and the like. On the upper outer surface of the left column 2, there are a top sheave hole 2c for maintenance of the top sheave 13 (FIG. 5) in the hollow member 2b, and a stopper hole 2d for adjusting the stopper of the slider 3 in the hollow member 2a. Each is formed. Normally, the top sheave hole 2c and the stopper hole 2d are closed by covers 2e and 2f, respectively. In addition, a vertically long rectangular wire maintenance hole 2g is formed on the inner surface, and this hole 2g is normally closed by a cover 2h. On the other hand, a side sheave hole 2i for maintenance of the side sheave 11 (FIG. 5) is formed below the hollow member 2b of the left column 2, and is normally closed by a cover 2j.
[0019]
Similarly, the right column 2 is also symmetrically formed with wire maintenance holes 2g, which are closed by the cover 2h. FIG. 7 is a part of a perspective view of the rear part of the vehicle body as viewed from the starboard side. Similar to the left side, a top sheave hole 2c, a stopper hole 2d, a side sheave hole 2i and covers 2e, 2f, 2j are provided. ing.
6B is a cross-sectional view taken along the line BB in FIG. 6A. In FIGS. 6A and 6B, the rear side of the cross member 8 is inclined, and the cover 8b is removed. Then, a horizontally long work opening 8a appears.
[0020]
FIG. 8 is a partially enlarged view of the starboard side column 2 as viewed from the inside. This shows the state when the slider 3 reaches the rising end. At this time, the adjusting screw 37 (see also FIG. 3A) provided at the upper end of the slider 3 is the column 2. It abuts against a stopper 19 provided inside. The adjustment screw 37 can be adjusted from the stopper hole 2d to finely adjust the rising end position. The movable end 15 b of the wire 15 is inserted into the wire bracket 36 as described above, and is engaged with the wire bracket 36 by the double nut 20 to suspend the slider 3. The wire maintenance hole 2g is in a position close to the connecting portion between the movable end 15b and the slider 3, and if the tension of the wire 15 is loosened, the movable end 15b is pulled out from the wire maintenance hole 2g together with the double nut 20, The double nut 20 can be removed. The top sheave hole 2 c is provided below the top sheave 14, and maintenance or replacement work of the top sheave 14 and unloading of the wire 15 can be performed from here. The same applies to the column 2 on the port side.
[0021]
Next, a procedure for replacing the wires 15 and 17 will be described. 9 to 13 are diagrams relating to replacement of the wire 15 that supports the starboard side slider 3, and illustration of the port 17 side wire 17 and other parts that are not necessary for explanation are omitted for the sake of simplification of the drawing. Similarly, FIGS. 14 to 18 are diagrams regarding replacement of the wire 17 that supports the slider 3 on the port side.
[0022]
First, after the unloading platform 4 is lowered to the ground, the cover 8b of the cross member 8 and the cover 2e of the pair of left and right top sheave holes 2c, wire maintenance holes 2g, and side sheave holes 2i shown in FIG. Remove 2h and 2j, respectively. Next, the receiving platform 4 is raised to the rising end. The movable sheave 10 at this time is in the position shown in FIGS. 9 and 14, and the wires 15 and 17 are in the state shown in FIGS. 9 and 14, respectively. That is, the movable sheave 10 moves to the right, and the movable end 15b of the wire 15 and the movable end 17b of the wire 17 reach the rising end, respectively. Here, as shown in FIG. 1, the cargo receiving platform 4 is folded, placed in the upright storage state, and locked by the locking devices 6 and 7. By this lock, the load receiving stand 4 is fixed to the vehicle body side without depending on the wires 15 and 17. In other words, the tension of the wires 15 and 17 may be relaxed.
[0023]
If the wire receiving operation is to be performed when the receiving platform 4 is in a state other than the stowed storage state (excluding the receiving platform landing state), it is necessary to separately provide a device for locking the receiving table 4 in that state. However, by performing the wire replacement work by locking with the lock devices 6 and 7 in the upright retracted state as described above, it is not necessary to provide a separate lock device for wire replacement, and the number of members can be increased. It is preferable in that it can be prevented.
[0024]
Here, after the cylinder 9 (FIG. 5) is contracted to loosen the tension of the wires 15 and 17, the fixed ends 15a and 17a are removed from the wire brackets 16 and 18, respectively, as shown in FIGS. Subsequently, as shown in FIGS. 11 and 16, the wires 15 and 17 are pulled out from the right and left side sheave holes 2i, respectively, and the fixed ends 15a and 17a are pulled out to the outside.
Next, the double nut 20 (FIG. 8) is removed while the movable ends 15b and 17b of the wires 15 and 17 are pulled out from the wire maintenance holes 2g, respectively, and are removed from the wire bracket 36 (FIGS. 3 and 8). As shown in FIG. 17, the movable ends 15b and 17b are made free.
Then, as shown in FIGS. 13 and 18, the movable ends 15 b and 17 b are pulled out from the top sheave hole 2 c to the outside, the wires 15 and 17 are pulled out, and are pulled out from the column 2.
[0025]
Next, in order to attach new wires 15 and 17, the following procedure is used. First, the movable ends 15 b and 17 b of the wires 15 and 17 are first inserted into the column 2 from the top sheave hole 2 c and inserted through the wire bracket 36. Subsequently, the movable ends 15b and 17b that have passed through the wire bracket 36 are pulled out from the wire maintenance holes 2g on both sides, and the double nut 20 is fixed and the removal is regulated. The wires 15 and 17 are wound around the top sheaves 14 and 13, respectively. Next, the fixed ends 15a and 17a of the wires 15 and 17 are respectively inserted from the top sheave holes 2c on both sides and lowered.
[0026]
When the fixed ends 15a and 17a come down to the positions where they can be touched from the side sheave holes 2i or the openings 8a, they are pulled out from the side sheave holes 2i or pulled out of the cross member 8 without being pulled out. , 12 and the movable sheave 10. As a result, the state shown in FIGS. 10 and 15 is obtained. Here, the fixed ends 15a and 17a are connected to the wire brackets 16 and 18, respectively. Next, the piston rod 9a (FIG. 5) of the cylinder 9 is moved in the extending direction, and a predetermined tension is applied while carefully watching the tension of the wires 15 and 17. When the new wires 15 and 17 are thus attached, the covers 2e, 2j and 8b (FIG. 6) are attached, and the replacement is completed.
[0027]
According to the replacement procedure as described above, the movable ends 15b and 17b of the wires 15 and 17 can be pulled out from the wire maintenance hole 2g and detached without removing the slider 3 from the column 2. Further, the fixed ends 15 a and 17 a can be detached from the opening 8 a of the cross member 8. That is, the wires 15 and 17 can be replaced without lifting the rear part of the vehicle body. Accordingly, the wires 15 and 17 can be easily replaced without a large facility such as a crane.
[0028]
In the above embodiment, the top sheave hole 2c is used when the wires 15 and 17 are removed from the column 2, but instead, the side sheave hole 2i can be used.
Moreover, in the said embodiment, although the wire maintenance hole 2g was provided in the position close | similar to the connection part of the wires 15 and 17 and the slider 3 when the load receiving stand 4 stood and stored, as shown with the dashed-two dotted line of FIG. The wire maintenance hole 2g may be provided at a position close to the connecting portion between the wires 15 and 17 and the slider 3 when the load receiving platform 4 is landed. That is, the wire maintenance hole 2g is close to the connecting portion between the slider 3 and the wires 15 and 17 released from the suspended state by setting the operation of the load receiving platform 4 and the slider 3 to be regulated (the state where the operation is not lowered). May be provided.
[0029]
【The invention's effect】
According to the load receiving platform lifting / lowering device of the present invention configured as described above, if the wire tension is loosened in the state where the connection portion between the wire and the slider is close to the hole due to the presence of the wire maintenance hole, the wire The movable end of the wire and the slider can be attached and detached using the maintenance hole. Further, the fixed end of the wire can be detached from the opening of the cross member. That is, the wire can be replaced without lifting the rear part of the vehicle body and removing the slider from the column. Therefore, the wire can be easily replaced without a large facility such as a crane.
[0030]
Further, according to the wire replacement method of the load receiving platform lifting apparatus of the present invention, after releasing the load receiving block and the slider from the suspended state, the wire tension is relaxed and the fixed end is disconnected to be in a free state. The connection between the movable end of the wire and the slider can be released from the wire maintenance hole formed in the support column. Further, when the movable end of a new wire is connected to the slider, the connection can be made from the wire maintenance hole. That is, the wire can be replaced without lifting the rear part of the vehicle body and removing the slider from the column. Therefore, the wire can be easily replaced without a large facility such as a crane.
[Brief description of the drawings]
FIG. 1 is a side view of a vehicle body rear portion of a vehicle equipped with a load receiving platform lifting apparatus according to an embodiment of the present invention.
FIG. 2 is a view of a rear part of a vehicle body mounted with the load receiving table lifting device as viewed from the rear.
FIG. 3A is a view of a slider of the load receiving platform lifting apparatus as viewed from the side, and FIGS. 3B and 3C are cross-sectional views taken along line BB in FIG. , CC sectional view and DD sectional view.
4 is a side view showing a state in which the load receiving platform is unfolded from the state shown in FIG. 1 and moved up and down.
FIG. 5 is a perspective view of the rear part of the vehicle showing a drive mechanism housed inside a pair of columns and a cross member in the load receiving table lifting device.
6A is a perspective view of the rear portion of the vehicle showing the opening of the column and cross member, and FIG. 6B is a sectional view taken along line BB in FIG.
FIG. 7 is a part of a perspective view of the rear part of the vehicle body as seen from the starboard side.
FIG. 8 is a partially enlarged view of the starboard side column as viewed from the inside.
FIG. 9 is a perspective view showing a procedure for replacing wires in columns and cross members, and shows a state of the starboard side wire when the slider is raised to the rising end.
10 is a diagram showing a state in which the tension of the wire is released from the state of FIG. 9 and the fixed end is removed.
11 is a diagram showing a state in the middle of pulling out a wire from the state of FIG. 10;
FIG. 12 is a view showing a state in which the fixed end side of the wire is completely pulled out to the side and the movable end is removed from the slider.
13 is a view showing a state in the middle of pulling the wire out of the column from the state of FIG.
FIG. 14 is a perspective view showing a procedure for replacing the wires in the column and the cross member, and shows the state of the wire on the port side when the slider is raised to the rising end.
15 is a view showing a state in which the tension of the wire is released from the state of FIG. 14 and the fixed end is removed.
16 is a view showing a state in the middle of pulling out the wire from the state of FIG. 15;
FIG. 17 is a view showing a state in which the fixed end side of the wire is completely pulled out to the side and the movable end is removed from the slider.
18 is a view showing a state in the middle of pulling the wire out of the column from the state of FIG. 17;
[Explanation of symbols]
1 Body 2 Column
2c Top sheave hole 2g Wire maintenance hole 3 Slider 4 Loading platform 6, 7 Locking device 8 Cross member 8a Opening 9 Cylinder 15, 17 Wires 15a, 17a Fixed end 15b, 17b Movable end

Claims (3)

A pair of pillars erected at the end of the vehicle body;
A cross member provided in a lateral direction between the pair of struts and provided with a working opening;
A cylinder provided in the cross member;
A slider provided so as to be movable up and down in the column;
A cradle supported by the slider;
The cylinder is stretched by engaging the operating point of the cylinder between one end fixed in the cross member and the other end connected to the slider, and the other end is moved according to the expansion and contraction of the cylinder. In a load receiving table lifting device comprising a wire for moving the slider up and down by
A load receiving / lifting device, wherein a wire maintenance hole is formed in a side wall of the support column adjacent to the connection part in a state where the connection part of the wire and the slider is in a predetermined position in the support column. The wire maintenance hole is formed in the vicinity of a connection portion with the wire when the slider is at the rising end position, and is a lock that locks the load receiving table stood and stored from the rising end position to the vehicle body side. The load receiving table lifting / lowering device according to claim 1, wherein the device is provided. A wire replacement method for a load receiving and lowering device that raises and lowers the load receiving by moving the slider up and down in a state in which the slider supporting the load receiving is suspended on the wire,
The load receiving platform and the slider are released from the suspended state by the wire by making the operation restricted.
Release the wire tension,
Remove the connection of the fixed end of the wire to be in a free state, and release the connection between the movable end of the wire and the slider from the wire maintenance hole formed in the column.
Pull out the wire from any hole formed in the column,
Put a new wire into the support through the hole,
From the wire maintenance hole, the movable end of the new wire and the slider are connected and stretched in a predetermined manner, and the fixed end is fixed to the vehicle body side,
A wire replacement method for a load receiving platform lifting apparatus, wherein a predetermined tension is applied to the new wire.

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