JPH0881187A - Tension imparting device for wire rope for winch - Google Patents

Abstract

PURPOSE: To provide a tension imparting device to a wire rope for a winch by which stable tension is secured for a long time and a wire rope can be replaced even at an optional place such as a working field. CONSTITUTION: Plural frictional members 24 putting a wire rope 6 between them are stored in a housing 23 freely movably so as to fasten/loosen the wire rope 6. Plural levers 27 are pivoted in the housing 23, and the levers 27 are connected to an anchor 28 on the opposite side to a drawing out side of the wire rope 6 in the housing 23 via connecting members 29. Tension in the connecting members 29, which is generated as reaction force of the tension in the wire rope 6, is transmitted to the frictional members 24 via the levers 27, and the frictional members 24 are brought into pressure contact with the wire rope 6 so as to press the wire rope 6.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction machine such as a crane or a machine for foundation work when a wire rope is first wound around a drum of a winch or when an old wire rope is replaced with a new wire rope. The present invention relates to a tension applying device that prevents turbulent winding by applying tension to a rope and winding it around a drum.

[0002]

2. Description of the Related Art When winding a wire rope around a winch drum mounted on a crane, if the wire rope is wound in multiple layers without applying tension, a load may be applied to the wire rope due to boom undulation or lifting or hanging of a load. ,
Phenomena such as "the upper-layer wire rope bites into the lower layer" or "the lower-layer wire rope is released into the upper layer" occur, and the suspended load may drop momentarily, which is dangerous. In addition, when such a phenomenon is repeated, the wire rope wound on the drum is changed from aligned winding to irregular winding,
The phenomenon described above is more likely to occur, and the wire rope may be prematurely worn or damaged such as broken wires, which may result in breakage.

Therefore, when the wire rope is wound on the drum, it is wound while applying tension to the wire rope. Conventionally, this tension has been applied by a method in which several workers pull the wire rope. However, it is difficult to apply sufficient tension by this method, and therefore, the drum 1 to
Alignment winding of the two layers of waste winding was not assured, and the maintenance of alignment winding of the upper layer was unstable. In addition, there is a problem in that when it is done by human power, it causes a great deal of labor to the worker, is dangerous, and requires a long working time.

Therefore, as a tension applying device for a wire rope which does not depend on human power, there is a device disclosed in Japanese Utility Model Laid-Open No. 1-106495 as shown in FIGS. 6 (A) and 6 (B). FIG. 6A shows the frame 2 fixed to the gantry 1.
A pair of resistance applying members 5 in which a wooden plate 4 is attached to the iron plate 3 is attached to the
And the bolts 7 and the nut 8 sandwich the resistance applying members 5, 5
When the wire rope 6 is wound around a winch drum (not shown), the wooden board 4 rubs against the wire rope 6 so that tension is applied to the wire rope 6.

On the other hand, in the tension applying device of FIG. 6B, a pair of iron plates 11 pressed by springs 10 are provided on a frame 9 fixed to the gantry 1, and the wire rope 6 is interposed between the iron plates 11 and 11.
And the wire rope 6 is tensioned by a pressing force determined by the force of the spring 10.

[0006]

However, as shown in FIG. 6 (A), the wire rope 6 is tensioned by the tightening force between the bolt 7 and the nut 8, and There is a problem that the entrance portion of the wire rope 6 is unevenly worn, the wood board 4 is consumed quickly, and the service life is short.
In addition, there is a problem that it takes man-hours to balance the pressing force by using the four bolts 7. On the other hand, FIG.
In the case of (B), in order to prevent damage due to friction between the wire rope 6 and the iron plate 11, since the iron plate 11 must be made of a soft material, wear is likely to occur. The spring 10 slackens by the amount of wear, and as a result, the tension of the wire rope 6 decreases, so that there is also a problem that a sufficient service life cannot be obtained. Further, in any case, a fixed gantry 1 and frames 2 and 9 whose directions are set like the gantry 1 are required, and these gantry 1 and frames 1 and 9 are required.
It was necessary to bring in the winch to a factory with a certain amount of work, and it was large in size, and it was not possible to change the wire rope 6 flexibly at the work site.

In view of the above-mentioned problems, the present invention secures a stable tension for a long period of time, achieves miniaturization, and can replace a wire rope at any place such as a work site. An object of the present invention is to provide a rope tension applying device.

[0008]

In order to achieve the above object, a tensioning device for a winch wire rope according to the present invention,
A housing and a plurality of frictions that are movably accommodated in the housing so as to sandwich the wire rope and to be able to tighten and loosen the wire rope, and to apply tension to the wire rope by friction with the wire rope. A member and a plurality of lever-like levers pivotally attached to the housing, and the levers are connected to an anchor on the opposite side of the wire rope withdrawing side of the housing via a connecting member,
A conversion mechanism for transmitting the tension of the connecting member generated as a reaction force of the tension of the wire rope to the friction member via the lever, and converting the tension into a force for pressing the wire rope by the friction member. .

[0009]

In the device of the present invention, when the wire rope is sandwiched between the friction members and wound by the winch, tension is generated in the wire rope due to the friction between the friction member and the wire rope, which causes the anchor (building structure or construction Tension is generated in the connecting member connected to the machine, etc., and the tension is transmitted to the lever, and the lever moves in a lever shape with respect to the housing about the pivot point, whereby the lever changes the friction member into a wire rope. It moves in the direction that the frictional force of the wire increases and gives tension to the wire rope.

[0010]

1 is a block diagram showing an embodiment of a tension applying device according to the present invention, 20 is a winch having a drum 21 for winding a wire rope 6, and 22 is a tension applying device according to the present invention. The tension applying device 22 includes a housing 23.
Then, the wire rope 6 is movably accommodated in the housing 23 so as to sandwich the wire rope 6 and can be tightened and loosened with respect to the wire rope 6. By friction with the wire rope 6, tension is applied to the wire rope 6. A plurality of friction members 24
And a plurality of lever-shaped levers 27 pivotally attached to the housing 23 by pivot pins 26, and the levers 27 are provided on the opposite side of the housing 23 from the side where the wire rope 6 is pulled out. It has a conversion mechanism 30 which is connected to the anchor 28 via a connecting member 29 such as an anchor rope or a chain and converts the tension of the wire rope 6 into a pressing force of the friction member 24 against the wire rope 6.

FIG. 2 is a perspective view showing the tension applying device 22 of the embodiment, FIG. 3 is a cross sectional view of the tension applying device 22, and FIG.
3A is a view as seen from an arrow A in FIG. 3, FIG. 3B is a view showing a state in which the housing 23 is opened, and FIG. 3C and FIG.
EE, FF sectional view, (E) is an exploded perspective view of a member housed in the housing 23. As shown in these drawings, the housing 23 is formed by combining housing members 23a and 23b made of steel and having a U-shaped cross section. One of the abutting portions of these housing members 23a and 23b is connected by a hinge 32. Thus, as shown in FIG. 4 (B), there can be a state in which the abutting surface faces outward, and a state in which the abutting surface faces outward. As shown in FIG. 4 (A), in the closed state, The pin 34 is inserted into a hole e provided in a meshing portion 33 formed at the abutting portion of the two housing members 23a and 23b, so that the two housing members 23a and 23b are integrally coupled. Each housing 2
Brackets 36 are welded to the corners of the wire ropes 3a and 23b on the opposite side to the side where the wire ropes 6 are pulled out.
The lever 27 is pivotally attached by a pin 26.

Each of the housing members 23a and 23b accommodates a friction member 24 made of hard nylon and a holder 38 made of steel for attaching the friction member 24 in a replaceable manner. As shown in FIGS. 3 and 4 (E), the friction member 24
The holder 3 and the holder 38 are formed by fitting the convex portion 24a on the back surface into the concave portion 38a of the holder 38 and penetrating the concave portion 38a.
8b and the bolt 39 is inserted into the convex portion 24a of the friction member 24.
It is detachably coupled by being screwed into the screw hole 24b provided in the. The friction member 24 has a friction surface 24c having an arc-shaped cross section, and the curvature of the friction surface 24c is the diameter of the wire rope 6 that applies tension (in a crane, the diameter is generally about 6 mm to 30 mm). Wire rope is used).

Screw holes 38c are provided in the vicinity of both ends of the holder 38, and bolts 40 are respectively screwed into the screw holes 38c from both ends. The bolts 40 are respectively attached to the housing members 23a, 23b. Bolts 40 that slidably fit in guide grooves 41 that are provided in the plate-like portions on the front and back sides of the wire rope 6 that are inclined with respect to the axial direction of the wire rope 6, and that couple the friction member 24 and the holder 38. Is
The housing members 23a and 23b are slidably fitted in long holes 42 provided on the opposite side of the abutting surfaces.

Reference numeral 44 denotes an adjusting bolt which constitutes a mechanism for adjusting the pressing force applied by the friction member 24. The adjusting bolt regulates the limit of movement of the holder 38 and the friction member 24, whereby the excessive pressing by the friction member 24 is performed. This is for preventing pressure from acting on the wire rope 6, and the adjusting bolt 44 is screwed into the screw hole 43a of the block 43 welded to the end face of the wire rope 6 of each housing member 23a, 23b. By adjusting the screwing depth of the bolt 44, the movement limit of the holder 38 is set to a position where the end surface of the holder 38 contacts the tip of the adjustment bolt 44, and the pressing force of the wire rope 6 by the friction member 24 is adjusted. . The pressing force adjusting mechanism may be configured to limit the turning angle of the lever 27. 45
Is a ring fixed to the surface of the holder 38 opposite to the wire rope pull-out side and fitted to the tip of the lever 27 on the holder 38 side for pulling out the friction member 24. When setting the wire rope 6, This is for keeping the friction members 24, 24 open.

When the tension applying device 22 of this embodiment is used, as shown in FIG. 4 (B), the pin 34 is pulled out to leave the housing members 23a and 23b open, and the wire rope 6 is attached. The friction members 24, 24 are fitted and fitted together, and the pin 34 is inserted into the hole e of the meshing portion 33 of the housing member 33. Then, the connecting member 29 is connected to a boom of a construction machine such as a crane, a bridle, or an anchor 28 such as a foundation of a building in a factory. In this state, the lever 27 is manually contracted as shown by an arrow R in FIG. 3, and the holder 38 is pushed by the tip of the lever 27 on the housing 23 side, whereby the bolt 40 is moved along the guide groove 41, and the friction member 24, At the same time, the wire ropes 6 are pressed close to each other and the wire ropes 6 and the connection members 29 are tensioned by human power.
In this state, the motor of the winch 20 is operated to drive the drum 2
When the wire rope 6 is wound around 1, the tension is further generated in the wire rope 6 between the tension applying device 22 and the drum 21. As a result, a tension as a reaction force is generated in the connecting member 29. In the present embodiment, as shown in FIG. 5A, the inclination angle θ is an angle at which a wedge action occurs (this angle is 5 degrees or more and 30 degrees or less in order to exhibit the wedge action). Since the friction member 24 is preferably set to 7 degrees or more and 20 degrees or less), if the friction member 24 is manually pressed by the lever 27, a wedge action occurs, and the wire rope 6 causes the friction member 24 to move. Is automatically retracted into the housing 23, facilitating initial operation.

As shown in FIG. 5A, this connecting member 2
The tension of 9 acts as a force for rotating the lever 27, and the tip of the lever 27 on the holder 38 side presses the holder 38 in the pulling direction of the wire rope 6, whereby the holder 38
The bolt 40 fixed to the slider slides along the guide groove 41 to move the friction members 24, 24 in a direction in which the friction members 24, 24 come close to each other, whereby the friction member 24 is pressed against the wire rope 6 and slides on the wire rope 6. A resistance is generated and a tension is applied to the wire rope 6. Since this action is the same as when the lever 27 is operated in the closing direction by manual operation, the pressing force of the wire rope 6 is maintained even if the manual operation is removed, and the tension application to the wire rope 6 can be continued.

In this embodiment, as shown in FIG. 5A, the distance a to the connection point between the pivot pin 26 of the lever 27 and the connecting member 29 and the contact between the pivot pin 26 and the holder 38. By setting the ratio (= a / b) to the distance b to the point to be greater than 1, and setting the inclination angle θ of the guide groove 41 with respect to the axis 46 of the wire rope 6 to be 45 degrees or less, the booster mechanism is I am configuring.

That is, the tension of the connecting member 29 is T _A (this T _A corresponds to ½ of the tension T of the wire rope 6), and the force of the lever 27 pressing the friction member 24 via the holder 38 is P. _B, and the angle of inclination relative to the axis 46 of the wire rope 6 in the guide groove 41 theta, a force which the friction member 24 presses the wire rope 6 and _{P, P B ≒ (a /} b) × T a = (a / b ) × (T / 2) holds, and from the vector diagram of FIG. 5B, P = P _B × (1 / tan θ) holds, so P = P _B × (1 / tan θ) = (A / b) x (T / 2) x
(1 / tan θ). Here, assuming that a / b = 10 and θ = 10 degrees, P = 10 × (T / 2) × (1 / 0.176) ≈28T, which is a pressing force about 28 times the tension T of the wire rope 6. It is possible to press the wire rope 6 with.

As described above, the reaction force of the tension of the wire rope 6 is used to press the wire rope 6 with the friction member 24 to generate the tension in the wire rope 6, so that a stable tension can be maintained for a long time. 6 can be added. That is, the pressing force depends on the power ratio a / b of the lever 27 and the inclination angle θ.
When the friction member 24 wears, the angle formed by the lever 27 in the closed state is slightly reduced, but tension of a predetermined value or more can be applied for a long period of time. That is, as in the conventional example of FIG. 6 (A), as in the case where tension is applied to the wire rope 6 by the tightening force of the bolt 7 and the nut 8, the tension applying action is rapidly reduced due to the abrasion of the friction member 24. 6B.
As described above, when the tension is applied by the spring 10, the tension decreases due to the wear of the iron plate 11, but in the case of the configuration of the present invention, the degree of the tension decrease due to the wear of the friction member 24 decreases, and the long-term It can be used. Also,
The construction is such that a connecting member 29 such as an anchor rope or a chain is connected to a construction machine or the like, which is a heavy object capable of giving a predetermined tension, and the reaction force of the tension of the wire rope 6 is used to obtain the tension. As can be seen from the comparison between FIG. 1 and FIG. 5, the device 22 of the present invention is small and lightweight, and thus can be easily carried and not only in the factory but also in the work site, etc.
The new wire rope 6 can be easily wound by using the bridle or boom of the construction machine itself such as a crane as an anchor, which is convenient for practical use.

The friction member 24 has a friction surface 24c having an arcuate cross section that matches the cross section of the outer peripheral surface of the wire rope 6, and has a shape long in the longitudinal direction of the wire rope 6. Since the friction member 24 of the book is in parallel contact with the outer peripheral surface of the wire rope 6 while moving parallel to the winding direction of the wire rope 6, it is always in contact with the entire surface and has a large friction area, so that a large tension is applied. be able to.

As shown in FIGS. 6 (A) and 6 (B), when the wire rope 6 is sandwiched by the plate members 4 and 11, the wire rope 6 makes a line contact, the friction area is small, and the contact resistance is low. Although it becomes non-uniform over the entire circumference of the wire 6, as in this embodiment, the friction surface 24c having an arcuate cross section increases the friction area, and the pressing force acts uniformly on the wire rope 6, Only the entrance of the rope 6 is not unevenly worn, and the friction surface 24c is less worn,
A stable tension can be secured for a long time, and the friction member 24
Has a long life. As the friction member 24, the wire rope 6
On the other hand, abradable metal or hard resin can be used, but when hard nylon is used as in this embodiment, there is no risk of damaging the wire rope 6 and
It was possible to wind the wire rope 6 of 20 times or more.

Further, as shown in FIGS. 6 (A) and 6 (B), when the wire rope 6 is sandwiched between the plate members 4 and 11 to make line contact, a large force is required to obtain a tension of a predetermined value or more. , The wire rope 6 may be crushed to loosen the strands and deteriorate, but by using the friction surface 24c as an arc surface along the outer peripheral surface of the wire rope 6 as in the present embodiment, It is possible to prevent damage to the wire rope 6.

Further, by providing an adjusting mechanism (adjusting bolt 44) for adjusting the movement limit of the friction member 24 to adjust the tension of the wire rope 6, it is possible to prevent the pressing force of the friction member 24 from becoming excessive. Therefore, it is possible to prevent the wire rope 6 from being crushed and the strands from becoming loose. Further, by adjusting the screwing depth of the adjusting bolt 44 to adjust the limit of the moving position of the holder 38, and by adjusting the distance between the friction members 24, 24, that is, the pressing force against the wire rope 6, the tension is Can be adjusted properly. Further, when the friction member 24 is worn, the screwing depth of the adjusting bolt 44 is set to be shallow so that the friction member 24 can be inserted deeper, thereby further extending the life of the friction member 24. You can

The housing 23 has a structure in which two housing members 23a and 23b are openably and closably coupled via a hinge 32, and the opposite side of the hinge 32 is detachably coupled by a coupling member such as a pin 34. So Figure 6
Wire rope 6 by bolting as shown in (A)
It is possible to easily attach and detach the wire rope 6 as compared with attaching and detaching.

Since the friction member 24 is detachably attached to the holder 38 housed in the housing 23 so as to be close to and away from the wire rope 6, the holder 38 has friction surfaces of various curvatures. By exchanging and attaching the friction member 24 having 24c, tension corresponding to the thickness of the wire rope 6 can be applied.

In carrying out the present invention, various modifications and additions can be made in addition to the above-mentioned embodiment, for example, the friction member 24.
Is formed in a wedge shape, and the friction member is slidably accommodated in an inclined groove, and the friction member 24 itself or a holder combined with the friction member 24 is slid along the groove. The friction member 24 may be brought into contact with or separated from the friction member 24. Alternatively, the friction member 24 may be moved toward or away from the wire rope 6 at a right angle.
The movable member pressed by the lever 27 may be moved along the inclined guide groove to push the friction member 24 toward the wire rope 6 side by the movable member.
Further, when the friction member 24 and the holder 38 are moved along the inclined guide groove, the inclination direction is opposite to that of FIG. 5A, that is, the inclination angle is −θ, and the tension of the wire rope 6 is reversed. The friction member 24 may be moved closer to the wire rope 6 while being moved to the opposite side of the wire rope 6 from the pull-out side by the force. Further, the number of friction members 24 and levers 27 may be three or more instead of two.

[0027]

According to the first aspect of the present invention, since the reaction force of the tension of the wire rope is used to press the wire rope with the friction member, the tension of the tension applying device facilitates the tension of several people. In addition to being able to obtain work time and the number of workers, reduce the labor of workers, and improve the safety of work, further, despite the wear of the friction member, for a long time, A tension higher than a predetermined value can be stably applied to the wire rope, long-term use is possible, and a tension applying device can be realized. In addition, since the construction machine is a heavy object and the construction machine itself can take the reaction force of the tension of the wire rope, it is possible to replace the wire rope not only at the factory but also at the work site. It is convenient.

According to claim 2, the friction surface of the friction member is
Since it is formed in an arc shape that matches the cross section of the outer peripheral surface of the wire rope, the contact area with the wire rope becomes large and the sliding resistance becomes uniform in the circumferential direction of the wire rope.
The pressing force on the friction surface of the friction member is reduced, the wear on the friction surface progresses uniformly, and the life of the friction member is extended. Further, when sandwiching the wire rope with a plate material as in the conventional case, there is a possibility that the wire rope is partially contacted with the wire rope and the wire rope is crushed, or the strand is loosened, but the friction surface is an arc surface. By doing so, it is possible to prevent such a wire rope from being damaged.

According to the third aspect, since the adjusting mechanism for limiting the pressing force of the friction member against the wire rope and adjusting the tension of the wire rope is provided, it is possible to prevent the pressing force of the friction member from becoming excessive. The tension can be properly adjusted by preventing the wire rope from being crushed and the strand from being twisted, and by adjusting the pressing force of the friction member against the wire rope. If the friction member wears,
Since the pressing force is set properly again by the adjustment operation,
The life of the friction member can be further extended.

According to the present invention, the converting mechanism is provided with a mechanism for boosting the tension of the connecting member into the pressing force of the wire rope. A device can be provided.

According to the fifth aspect of the present invention, the housing is constructed so that the two housing members can be opened and closed via the hinge and the opposite side of the hinge is detachably connected by the connecting member. The attachment / detachment of the wire rope can be performed more easily than the attachment / detachment of the wire rope.

According to the sixth aspect of the present invention, since the friction member is detachably attached to the holder housed in the housing so as to be close to and away from the wire rope, the holder has friction surfaces having various curvatures. By exchanging and attaching the friction member, it is possible to easily cope with various wire ropes having different thicknesses and to apply a tension corresponding to the thickness.

According to claim 7, since the friction member is made of hard nylon, tension can be applied without damaging the wire rope.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing an embodiment of a tension applying device according to the present invention in a working state.

FIG. 2 is a perspective view showing a tension applying device of the embodiment.

FIG. 3 is a cross-sectional view showing a tension applying device of the embodiment.

4A is a view as seen from an arrow A in FIG. 3, FIG. 4B is a view corresponding to FIG. 4A showing a state in which a housing is opened, and FIGS. 4C and 4D are EE and F in FIG. 3, respectively. -F sectional view, (E) is an exploded perspective view showing members housed inside the housing.

FIG. 5A is a plan view for explaining the operation of the embodiment,
(B) is a vector diagram for explaining the operation.

6A and 6B are respectively a perspective view and a cross-sectional view showing a conventional tension applying device.

[Explanation of symbols]

6: wire rope, 20: winch, 22: tension applying device, 23: housing, 23a, 23b: housing member, 24: friction member, 27: lever, 28: anchor,
29: Connection member, 30: Conversion mechanism, 32: Hinge, 3
4: Pin, 38: Holder, 39: Frictional member mounting bolt, 40: Guide bolt, 41: Guide groove, 44: Adjustment bolt

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Kouji Naito 6 Kanda Kita Vehicle Town, Chiyoda-ku, Tokyo Mito Industry Co., Ltd.

Claims (7)

[Claims] 1. A housing, and a housing that is movably housed in the housing so as to sandwich the wire rope and to be able to tighten and loosen the wire rope, and to tension the wire rope by friction with the wire rope. A plurality of friction members to be applied, and a plurality of lever-shaped levers pivotally attached to the housing, and the levers are connected to an anchor on the opposite side of the wire rope withdrawing side of the housing via a connecting member. , Transmitting the tension of the connecting member generated as a reaction force of the tension of the wire rope to the friction member via the lever,
A tension applying device for a winch wire rope, comprising: a conversion mechanism for converting the friction member into a force for pressing the wire rope. 2. The tension applying device for a winch wire rope according to claim 1, wherein the friction member has a friction surface having an arcuate cross-sectional shape that matches the cross-sectional shape of the outer peripheral surface of the wire rope. 3. The tension applying device for a winch wire rope according to claim 1 or 2, further comprising an adjusting mechanism for adjusting a tension of the wire rope by limiting a pressing force of the friction member against the wire rope. 4. The winch wire rope according to claim 1, 2 or 3, wherein the conversion mechanism has a mechanism for boosting the tension in the process of converting the tension of the connection member into the pressing force of the wire rope. Tensioning device. 5. The method according to any one of claims 1 to 4,
A tension applying device for a winch wire rope, wherein the housing has a structure in which two housing members are openable and closable via a hinge, and the opposite side of the hinge is detachably coupled by a coupling member. 6. The method according to any one of claims 1 to 5,
The tension applying device for a winch wire rope, wherein the friction member has a structure that is detachably attached to a holder housed in the housing so as to be able to approach and separate from the wire rope. 7. The method according to any one of claims 1 to 6,
A tension applying device for a winch wire rope, wherein the friction member is made of hard nylon.