JP2004100211A - Expansion mechanism, and multistage ladder with the expansion mechanism - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an expansion mechanism which is applicable to a multistage ladder, for instance, prevents an uppermost ladder from dropping out of a lower ladder, is safe, and high in operability. <P>SOLUTION: An operating band for expanding a lower-stage movable member and a synchronizing band for reciprocatively sliding the other movable member inclusive of an upper-stage movable member in interlock with the reciprocative sliding of the lower-stage movable member are fixedly connected to a base member and a plurality of movable members. Further one end of the operating band is rigidly connected to the base member, the other end is rigidly connected to the upper-stage movable member, and an operating band locking means for the locking movement of the operating band is provided, whereby the operating band is locked. Thus when the upper-stage movable member is expanded, its dropout from the movable member immediately therebelow is prevented. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a telescopic mechanism capable of adjusting the height and length so as to be adjustable, and a multi-stage ladder including the telescopic mechanism.
[0002]
[Prior art]
Conventionally, a configuration shown in FIG. 15 has been known as a multi-stage ladder provided with this kind of extension mechanism.
[0003]
That is, a middle ladder 102 as a lower movable member is slidably mounted along a pillar 200 of a lower ladder 101 corresponding to a guide portion of a base member, and the upper ladder 102 is reciprocally slidable on the middle ladder 102. An upper ladder 103 as a movable member is attached, pulleys 104 are respectively arranged on the lower ladder 101 and the middle ladder 102, and a rope 105 is laid between the two via the pulley 104, and by pulling operation of the rope 105, The middle ladder 102 is reciprocally slid to make it extendable, and further, a flat belt 106 is stretched over the lower ladder 101, the middle ladder 102, and the upper ladder 103, and interlocked with the reciprocating sliding of the middle ladder 102. The upper ladder 103 is configured to be reciprocally slidable (for example, see Patent Document 1).
[0004]
With this configuration, when the rope 105 is pulled, the middle ladder 102 extends and rises, and the upper ladder 103 extends and rises in synchronization with the rise of the middle ladder 102, and the lower, middle, and upper ladders 101, 102, 103 The three-stage ladder can be expanded and contracted by a simple operation.
[0005]
[Patent Document 1]
JP 2001-342773 A (FIGS. 1, 2, 4 to 6)
[0006]
[Problems to be solved by the invention]
However, the following problems still remain in the above-mentioned conventional multi-stage ladder.
[0007]
That is, in the above-described conventional configuration, the upper ladder 103 can be extended and raised in synchronization with the rise of the middle ladder 102, but as shown in FIG. When the upper ladder 103 is further lifted by itself, the length of the flat belt 106 rises as long as the length permits.
[0008]
This is because the upper ladder 103 is not provided with any structure other than the flat belt 106 for restricting its movement, for example, the upper ladder 103 is connected by the flat belt 106 and the middle ladder 102 For example, when the conventional multi-stage ladder is used leaning on a roof or the like and the upper ladder 103 is pulled from the roof, the lower end of the upper ladder 103 is not removed. The part may fall off from the upper end of the middle ladder 102, which may be extremely unstable and dangerous.
[0009]
In addition, in the above-described conventional multi-stage ladder, since the upper ladder 103 and the middle ladder 102 rise in synchronization, the unit climbing amount in one climbing operation is equal to each rise of the upper ladder 103 and the middle ladder 102. It is a sum of minutes and it is not possible to raise the ladder while performing fine adjustment of the total length of the ladder, and if there is a height limit, it is necessary to respond with the leaning angle of the ladder, etc. Was.
[0010]
An object of the present invention is to provide a multi-stage ladder that can solve the above problems.
[0011]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, in the present invention according to claim 1, a columnar base member and a movable member at a lower stage and an upper stage movable member which are attached so as to be reciprocally slidable in the longitudinal direction of the base member. A plurality of movable members including a movable member, wherein each movable member extends and contracts from a position where the movable member overlaps the base member to a protruding position. An operation band for extending the member and a tuning band for reciprocating sliding of other movable members including the upper movable member in conjunction with the reciprocal sliding of the lower movable member, respectively, While one end of the operation band is connected and fixed to the base member, the other end is connected and fixed to the upper movable member, and further, operation band locking means for locking the movement of the operation band is provided to lock the operation band. Yo , During elongation of said upper movable member, and to be able to prevent the said upper movable member comes off from the movable member immediately below.
[0012]
Further, in the present invention according to claim 2, a column-shaped base member, and a plurality of movable members that are attached so as to be reciprocally slidable in the longitudinal direction of the base member and include at least a lower movable member and an upper movable member. In a telescopic mechanism capable of expanding and contracting from a position where each movable member overlaps with the base member to a projecting position, the movable member extends between the base member and the plurality of movable members, and extends a lower movable member. The operation band and the tuning band for reciprocating sliding of the other movable members including the upper movable member are interlocked with the reciprocal sliding of the lower movable member, and furthermore, both ends of the operation band, Each of the operation belts is fixedly connected to the lower movable member, a middle portion of the operation band is engaged with the upper movable member, and operation band lock means for locking the movement of the operation band is provided to lock the operation band. By the time of extension of said upper movable member, and to be able to prevent the said upper movable member comes off from the movable member immediately below.
[0013]
According to the third aspect of the present invention, one end of the tuning band is connected to the base member, the other end is a free end, and a halfway of the free end is provided so as to be able to be locked to the base member. The engaging means for engaging the middle part of the operation band is suspended from the upper movable member via an elastic body.
[0014]
According to the fourth aspect of the present invention, there is provided a pair of right and left pillars provided with a stepping bar for raising and lowering, and the pillars are composed of fixed legs serving as a base member and telescopic legs serving as a movable member, and A multi-stage ladder provided with the telescopic mechanism according to any one of claims 1 to 3 above.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
The telescopic mechanism according to the present invention includes a columnar base member, and a plurality of movable members that are attached to the base member so as to be reciprocally slidable in the longitudinal direction, and include at least a lower movable member and an upper movable member. In an extendable mechanism in which each movable member can extend and contract from a position where the movable member overlaps the base member to a projecting position, the operation band extends between the base member and the plurality of movable members, and extends a lower movable member. In tandem with the reciprocating sliding of the lower movable member, a tuning band for reciprocating sliding of other movable members including the upper movable member is bridged, and one end of the operating band is connected to the base member. On the other hand, the other end is connected and fixed to the upper movable member, and furthermore, an operation band lock means for locking the movement of the operation band is provided, and the operation band is locked, thereby extending the upper movable member. To, those capable of preventing that the upper movable member comes off from the movable member immediately below.
[0016]
As a multi-stage ladder having such an extension mechanism, a lower ladder serving as a fixed leg, and a multi-stage ladder including a middle ladder and an upper ladder that are telescopically attached to the lower ladder, wherein the lower ladder and the middle ladder Over the upper ladder, an operation band for extending the middle ladder, and a tuning band for reciprocatingly sliding the upper ladder in conjunction with the reciprocal sliding of the middle ladder, respectively, and furthermore, the operation band The other end of the upper ladder is connected and fixed to the lower ladder while the other end is connected and fixed to the upper ladder, and further provided with an operation band lock means for locking the movement of the operation band. It is conceivable that the upper ladder can be prevented from falling off from the middle ladder at the time of extension.
[0017]
Further, the lower ladder, the middle ladder, and the upper ladder are provided with a pair of left and right pillars provided with a climbing step, and the pillars of the lower ladder become fixed legs serving as base members, and the middle ladder and the upper ladder. Is a telescopic leg which becomes a movable member.
[0018]
That is, since the other end of the operation band having one end connected to the fixed member or the lower ladder is connected to the upper movable member or the upper ladder, the other movable ladder or the middle ladder is operated by operating the operation band. If the operation band is locked after the overall length is determined by synchronizing and extending the upper movable member and the upper ladder, even if the upper movable member or the upper ladder is to be raised alone, the locked operation band Regulates the rise of the upper movable member and the upper ladder, so that the upper movable member and the upper ladder do not rise.
[0019]
Therefore, for example, when the multi-stage ladder according to the present embodiment is used leaning on a roof or the like, even if the upper ladder is pulled from the roof, the upper ladder does not move upward, and the same ladder is a middle ladder. It can be used safely without fear of falling off from the upper end.
[0020]
Further, according to the above configuration, even if the operation band is pulled downward, the other end is connected to the ascending upper ladder without sagging, and the foot is not taken or hooked on the sagging band. It is safe.
[0021]
In another embodiment, both ends of the operation band may be connected and fixed to the lower movable member, and a middle part of the operation band may be engaged with the upper movable member.
[0022]
When applied to a multi-stage ladder, both ends of the operation band can be connected and fixed to the middle ladder, and a middle part of the operation band can be engaged with the upper ladder.
[0023]
When the upper movable member or the upper ladder is extended, the upper movable member or the upper ladder is also moved directly below the movable member or the lower movable member or the middle when the upper movable member or the upper ladder is extended. It can be prevented from falling off the ladder.
[0024]
In this case, one end of the tuning band is connected to the base member, and the other end is a free end. May be suspended from the upper movable member via an elastic body.
[0025]
If this is also applied to a multi-stage ladder, one end of the tuning band is connected to the lower ladder, the other end is a free end, and the middle of the free end is arranged so as to be able to be locked to the lower ladder. On the other hand, the engagement means for engaging the middle part of the operation band can be configured to be suspended from the upper ladder via an elastic body.
[0026]
In the multi-stage ladder having such a configuration, the middle ladder and the upper ladder are extended while being tuned using the operation band, and then, if necessary, the free end of the tuning band is pulled downward. , The elastic body is extended and only the upper ladder can be raised. In this case, a stopper may be provided as appropriate so that the elastic body does not extend beyond the elastic force, and the elastic body can be prevented from being torn.
[0027]
As described above, since the upper ladder can only be lifted, the ladder length can be finely adjusted. It is not necessary to use it, and it can be used while maintaining an appropriate leaning angle that is considered safe.
[0028]
Also, when transporting the ladder, if the middle ladder and the upper ladder are shortened to make them shorter, transportation becomes easier, and if a caster, for example, is attached to the lower part of the lower ladder, even one person can roll the caster. It can be easily transported.
[0029]
By the way, in the above-described configuration, when the operation band and the tuning band are bridged on the lower ladder, the middle ladder, and the upper ladder, it is preferable that the operation band and the tuning band be bridged via a pulley, and the operation of the operation band and the tuning band are performed smoothly. Can be.
[0030]
In addition, it is desirable that the engagement means for engaging the middle part of the operation band be a pulley. Also in this case, the pulling operation of the operation band can be performed smoothly by rotating the pulley.
[0031]
As described above, in the telescopic mechanism according to the present embodiment, and in the multi-stage ladder including the telescopic mechanism, the upper movable member and the upper ladder, and the lower movable member and the middle ladder can be easily moved by moving the operation band. It can be extended and retracted to the required length at the time of use, and the usability is improved.
[0032]
The operating band and the tuning band may be belt-shaped such as a rope, a flat belt, a grooved belt, a wire, a chain, and the like. .
[0033]
Further, it is preferable to use a flat belt for the tuning band. In other words, since the flat belt is thin and the diameter of the pulley around which the belt is wound can be small, the external dimensions of the pulley mounting bracket and the like can be reduced, and the space for arranging the belt can be narrowed and the whole can be made compact. The weight can be reduced, and the handling property in transportation and use is improved.
[0034]
In addition, the above-described telescopic mechanism can be applied not only to a multi-stage ladder, but also variously as long as it is extended and used, such as a stepladder, a workbench, a lift, and a floodlight. Furthermore, it is also possible to use by expanding and contracting not only in the height direction but also in the downward and lateral directions.
[0035]
【Example】
Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following embodiments, the present invention is a multi-stage ladder including a telescopic mechanism.
(First embodiment)
FIG. 1 is a front view showing a multi-stage ladder according to the present embodiment, FIG. 2 is a side view thereof, FIG. 3 is a schematic explanatory view showing a state where the multi-stage ladder is contracted, and FIG. FIG. 5 is a schematic explanatory view showing a state where only the upper ladder is further extended from the state shown in FIG. 4, and FIG. 6 is a schematic explanatory view showing a state where expansion and contraction of the multi-stage ladder is locked.
[0036]
As shown in FIG. 1 and FIG. 2, a multi-stage ladder A according to the present embodiment is a fixed leg, a lower ladder A1 having a pillar 10 provided with an outrigger 1, a pedestal 20 serving as a telescopic leg, 30 and an upper ladder A3 having a hook 2 at an upper end thereof, and is configured as a triple telescopic ladder. The middle ladder A2 is reciprocally slidable with respect to a lower ladder A1, and an upper ladder. A3 is attached to the middle ladder A2 so as to be slidable back and forth.
[0037]
That is, in this embodiment, the pillar 10 is a fixed leg as a base member, and the pillars 20 and 30 are telescopic legs as movable members.
[0038]
The multi-stage ladder A is provided with a telescopic mechanism for causing the upper ladder A3 to reciprocally slide while synchronizing with the reciprocating sliding operation of the middle ladder A2. The telescopic mechanism includes an operation rope as an operation band. 4 and a tuning belt 5 composed of a flat belt as a tuning band for reciprocatingly sliding the upper ladder A3 in synchronization with the middle ladder A2.
[0039]
The lower ladder A1, the middle ladder A2, and the upper ladder A3 constituting the multi-stage ladder A include a pair of left and right pillars 10, 20, 30 provided with a large number of steps 11, 21, 31 for elevating. A sliding surface for guiding the middle ladder is formed on each inner surface of the left and right pillars 10 of the lower ladder A1, and an upper ladder guide is provided on each inner surface of the left and right pillars 20 of the middle ladder A2. Sliding surface is formed. Along the sliding surfaces, the pillar 20 of the middle ladder A2 and the pillar 30 of the upper ladder A3 are mounted so as to be able to slide back and forth.
[0040]
The operation rope 4 has both ends connected and fixed to a pair of opposing pillars 20, 20 of the middle ladder A2, respectively, and via a plurality of pulleys over the lower ladder A1, the middle ladder A2, and the upper ladder A3. I'm hanging over.
[0041]
The middle part of the operation rope 4 is wound around and engaged with the elastic band 9 suspended from the upper ladder A3. Note that the elastic band 9 can be made of rubber, a spring, or the like.
[0042]
Further, a lock portion 12 as an operation band locking means for locking the movement of the operation rope 4 is provided on the outer surface of the pillar 10 on one side of the lower ladder A1. In addition, the lock part 12 in the present embodiment is configured to be able to wind the operation rope 4 so as to be locked by winding the operation rope 4.
[0043]
Here, the operation of the operation rope 4 and the tuning belt 5 will be described more specifically.
[0044]
First, a description will be given of the arrangement position of the pulleys provided around the operation rope 4 and the tuning belt 5. As shown in FIGS. 3 and 4, as shown in FIGS. A first pulley 61 is provided, a second pulley 62 is provided on an upper portion, and a third pulley 63 is provided on an upper portion of the other pillar 10.
[0045]
In addition, fourth and fifth pulleys 64 and 65 are disposed at lower left and right pillars 20 and 20 of the middle ladder A2 at left and right line symmetric positions, and upper and lower pulleys are similarly positioned at right and left line symmetric positions. The sixth and seventh pulleys 66 and 67 are disposed so as to be as follows.
[0046]
Eighth and ninth pulleys 68 and 69 are disposed below the left and right pillars 30 and 30 of the upper ladder A3 at positions symmetrical to the left and right lines. Further, the elastic band 9 is suspended from an elastic band bracket 90 provided on the upper inner side surface of the one leg 30 of the ladder A3, and a tenth pulley 70 is rotatably attached to a tip of the elastic band 9. .
[0047]
The operation rope 4 that extends and contracts the middle ladder A2 with respect to the pulley group arranged as described above is as follows.
[0048]
As described above, one end of the operation rope 4 is connected and fixed to a lower portion of the pillar 20 (the left pillar 20 in FIG. 3) of the middle ladder A2, specifically, to a position above the fourth pulley 64. At the same time, it is extended upward, wound around the third pulley 63 provided on the lower ladder A1 from the inside and extended downward, wound around the fourth pulley 64 of the middle ladder A2 from the outside and extended horizontally, and It winds from the outside around the fifth pulley 65 provided on the ladder A2 and extends upward, and is wound from the inside on the second pulley 62 provided on the upper part of the one side pillar 10 of the lower ladder A1 and is turned back. Is extended substantially vertically downward along the outside surface of the elastic belt 9, wound around the first pulley 61 from the outside and extended obliquely upward, wound around the tenth pulley 70 attached to the tip of the elastic band 9, and turned back. Under the pillar 10 (the right pillar 20 in FIG. 3) of the ladder A2 They are connected and fixed to part. Reference numerals 40 and 41 denote attachment ends of the operation rope 4, which are connected and fixed to the pillars 20 of the middle ladder A2 at positions facing each other.
[0049]
On the other hand, the tuning belt 5 has one end connected to the lower ladder A1 and wrapped around the upper ladder A3 so as to support the lower ladder, and the other end forms a free end 51. A stopper portion 52 that can be locked to A1 is formed.
[0050]
More specifically, the bridging of the tuning belt 5 will be described in more detail. One end of the tuning belt 5 is connected and fixed to the vicinity of the upper end of one leg 10 of the lower ladder A1, and the seventh pulley 67 of the middle ladder A2 is connected. And is extended downward, wound around the ninth pulley 69 of the upper ladder A3 and extended in the horizontal direction, wound around the eighth pulley 68 and provided at a position symmetrical to the seventh pulley 67 of the middle ladder A2. The lower ladder A1 is wound around the sixth pulley 66, and is inserted into the guide / stopper receiver 13 formed at the upper end of the other side pillar 10 of the lower ladder A1. The tuning belt 5 supports the upper ladder A3 with the connecting end 50 forming one end and the stopper portion 52, and hangs between the stopper portion 52 and the free end 51 as an auxiliary belt portion 53, By pulling down the auxiliary belt portion 53, the upper ladder A3 can be raised independently.
[0051]
With the above configuration, when the portion of the operation rope 4 located between the first pulley 61 and the second pulley 62 is pulled down, as shown in FIG. 4, the mounting end 40 of the operation rope 4 becomes a support point and The middle ladder A2 is pulled up via the third pulley 63 while being supported by the fourth pulley 64 and the fifth pulley 65.
[0052]
In this embodiment, the stopper mechanism 8 described later is configured to be able to extend and stop at every distance (one step) between the steps 21 and 21 (31, 31) with respect to the lowering operation of the operation rope 4.
[0053]
When the middle ladder A2 slides upward, it is held on the pillars 10, 10 of the lower ladder A1 by the connecting end 50 and the stopper portion 52, and the upper ladder A3 is moved through the eighth and ninth pulleys 68, 69. The tuning belt 5 engaged with the ladder A is pulled upward and displaced in synchronization with the rise of the middle ladder A2, and the upper ladder A3 slides upward to extend the entire multi-stage ladder A.
[0054]
At this time, the extra length of the operation rope 4 that has been pulled down is pulled up together with the tenth pulley 70 that rises with the middle ladder A2, and there is no slack, so that the state in which the operation rope 4 lies on the ground is avoided. In addition, there is no possibility that the worker or the like may get caught or trip over.
[0055]
Since the pulling force of the operation rope 4 in the multi-stage ladder A according to the present embodiment is 1/3 of the weight of the middle ladder A2, for example, if the operation rope 4 is lowered by 30 cm, the middle ladder A2 and the upper ladder A3 each rise 10 cm. Then, as the ladders A2 and A3 rise, the operation rope 4 is also pulled up. At this time, since the operation rope 4 is wound around the tenth pulley 70 of the upper ladder A3 and folded back, the operation rope 4 is pulled up to the upper ladder A3 by a length twice as long as the rising amount. Therefore, the same 30 cm, which is the sum of the rise of the middle ladder A2, 10 cm, and the rise of the upper ladder A3, 20 cm, which is twice as large, is raised by 30 cm, and the slack of the operation rope 4 is absorbed. is there.
[0056]
In the state where the whole is stretched to a predetermined height (FIG. 4), if a slight height is desired, in the multi-stage ladder A according to the present embodiment, the auxiliary belt formed on the other end side of the tuning belt 5 is used. By lowering the portion 53, as shown in FIG. 5, only the upper ladder A3 can be raised by one step.
[0057]
That is, although the operation rope 4 is engaged with the upper ladder A3 via the tenth pulley 70, the elastic band 9 for suspending and supporting the tenth pulley 70 extends, so that the absolute position of the tenth pulley 70 can be changed. It is possible to raise only the upper ladder A3 while substantially maintaining it.
[0058]
In addition, as shown in the figure, the amount of lifting of the upper ladder A3 is controlled by arranging a stopper 32 serving also as the step rail 31 between the pillars 30, 30 of the upper ladder A3, and straddling the stopper 32. When the upper ladder A3 reaches a predetermined lift amount, the tenth pulley 70 contacts the stopper 32. Note that the stopper 32 may be separately provided for exclusive use.
[0059]
Further, a belt lowering amount regulating portion (not shown) is provided on the upper side of the stopper portion 52 of the tuning belt 5 so that the belt lowering amount regulating portion comes into contact with the stopper portion 52.
[0060]
In order to prevent the upper ladder A3 from being raised further from the state where the entirety has been extended to the predetermined height (FIG. 4), as shown in FIG. The operation rope 4 is pulled downward until the pulley 70 contacts the stopper 32, and the slack of the operation rope 4 is wound around the lock portion 12 and fixed.
[0061]
As described above, even if the upper ladder A3 is lifted alone by locking the operation rope 4, the movement of the upper ladder A3 is stopped by the operation rope 4 and cannot be raised. Therefore, for example, when the multi-stage ladder A is used leaning on a roof or the like, even if the upper ladder A3 is pulled from the roof, the upper ladder A3 does not move upward, and the same ladder A3 is used as the middle ladder A2. It can be used safely without fear of falling off from the upper end.
[0062]
As described above, even after the upper belt ladder A3 alone is pulled up by operating the auxiliary belt portion 53, the operation rope 4 is wound around the lock portion 12 to ensure that the upper ladder A3 does not needlessly move upward. Can be prevented.
[0063]
Note that the operation rope 4 and the tuning belt 5 in this embodiment are made of a synthetic resin having no elasticity and sufficient strength and also have electrical insulation, so that they are used as insulating ladders used in electric wire construction and the like. However, the material and the like are not particularly limited.
(Second embodiment)
Next, a second embodiment will be described with reference to FIGS. The same reference numerals are used for the same components as in the first embodiment.
[0064]
This embodiment differs from the previous embodiment in that the tenth pulley 70 for winding the operation rope 4 in the upper ladder A3 is not suspended from the elastic band 9 but directly to the upper ladder A3 as shown in the figure. And the both ends of the tuning belt 5 are connected and fixed near the upper ends of the left and right pillars 10, 10 of the lower ladder A1. 50 'is a connection end on the other side.
[0065]
Further, since the tuning belt 5 in this embodiment only synchronizes with the rise of the middle ladder A2, the eighth and ninth pulleys 68 and 69 provided on the upper ladder A3 in the first embodiment are abolished.
[0066]
That is, in the present embodiment, it is impossible to separate only the upper ladder A3 from the middle ladder A2 and raise it alone, and as shown in FIG. It is only allowed to rise.
[0067]
However, even in this case, if the operation rope 4 is wound around the lock portion 12 and locked, the upper ladder A3 may be erroneously raised and dropped from the middle ladder A2 after the multi-stage ladder A is leaned. It is not.
[0068]
Also in this case, the operation rope 4 does not slack when the operation rope 4 is lowered.
(Third embodiment)
Next, a third embodiment will be described with reference to FIGS. Note that, in the present embodiment, the same reference numerals are used for the same components as those in the first and second embodiments.
[0069]
In the present embodiment, the pulling force of the operation rope 4 of the multi-stage ladder A is set to 1/4 of the weight of the middle ladder A2. Therefore, in addition to the configuration in the second embodiment, the middle ladder A2 An eleventh pulley 71, a twelfth pulley 72, and a thirteenth pulley 73 are additionally provided. In this embodiment, the eleventh pulley 71 is located above the fourth pulley 64, the twelfth pulley 72 is located above the fifth pulley 65, and the thirteenth pulley 73 is located above the twelfth pulley 72. Has been established.
[0070]
Then, the operation rope 4 is laid as described below.
[0071]
That is, one end of the operation rope 4 is connected and fixed to the upper side of the lower ladder A1, directly below the second pulley 62, and is extended downward and wound around the fifth pulley 65 provided on the middle ladder A2 from the outside. To extend horizontally, and also wound around the fourth pulley 64 of the middle ladder A2 from the outside to extend upward, wound around the third pulley 63 provided on the lower ladder A1 from the outside and turned back, and newly added to the middle ladder A2. The ladder 10 of the lower ladder A1 is wound from the outside on the eleventh pulley 71 provided to extend horizontally, and wound on the twelfth pulley 72 newly provided on the middle ladder A2 from the outside to extend upward. It is wound from the inside around the second pulley 62 provided on the upper part of the pedestal and folded back, extended downward substantially vertically along the outer surface of the pillar 10, wound around the first pulley 61 from the outside, and extended obliquely upward, Attached directly to upper ladder A3 for free rotation Folded by turning 10 pulley 70 wound, the thirteenth pulley 73 newly disposed in the middle ladder A2 folded by winding from the inside, and connected and fixed to the lower portion of the upper ladder A3 the tip.
[0072]
Thus, here, the attachment end 41 on one side of the operation rope 4 is connected and fixed to the lower ladder A1, and the attachment end 40 on the other side is connected and fixed to the upper ladder A3.
[0073]
Also in the present embodiment, it is impossible to separate only the upper ladder A3 from the middle ladder A2 and raise it alone. As shown in FIG. 10, the middle ladder A2 and the upper ladder A3 are synchronized by pulling down the operation rope 4. Only to raise it.
[0074]
However, even in this case, if the operation rope 4 is wound around the lock portion 12 and locked, the upper ladder A3 may be erroneously raised and dropped from the middle ladder A2 after the multi-stage ladder A is leaned. It is not.
[0075]
Also in this case, the operation rope 4 does not slack when the operation rope 4 is lowered.
(Fourth embodiment)
Next, a fourth embodiment will be described with reference to FIGS. In this embodiment, the same reference numerals are used for the same components as those in the first to third embodiments.
[0076]
In the present embodiment, in the multi-stage ladder A in which the upper ladder A3 is prevented from being erroneously raised and dropped from the middle ladder A2, the pulling force of the operation rope 4 is reduced to １ ／ of the weight of the middle ladder A2. As shown in the figure, the way of hanging the operation rope 4 is also simplified.
[0077]
That is, the third pulley 63 and the tenth pulley 70 are removed from the configuration of the second embodiment, and the operation rope 4 is laid as follows.
[0078]
One end of the operation rope 4 is connected and fixed to the upper part of the pillar 10 (the left pillar 10 in FIG. 10) of the lower ladder A1, and is extended downward to wind around the fourth pulley 64 of the middle ladder A2 from outside. Turn to extend horizontally, wind around the fifth pulley 65 provided on the middle ladder A2 from the outside and extend upward, and the upper part of the pillar 10 (the right pillar 10 in FIG. 10) of the lower ladder A1. Is wound from the inside on the second pulley 62 and folded back, extends downward substantially vertically along the outer surface of the pillar 10, is wound on the first pulley 61 from the outside, extends obliquely upward, and is directly connected to the upper ladder. It is connected and fixed to the lower side of A3.
[0079]
In this case, although the force for pulling down the operation rope 4 is the largest, the number of pulleys is small and the configuration is simple, and substantially the same effect as in the second and third embodiments can be produced.
[0080]
By the way, in each of the above-described embodiments, when the operation rope 4 and the tuning belt 5 are wound around the lower ladder A1, the middle ladder A2, and the upper ladder A3, the operation rope 4 and the tuning belt 5 are wound over the pulley. The pulley is not necessarily limited to a pulley as long as the member or the configuration can smoothly slide the tuning belt 5.
[0081]
In each of the embodiments described above, the multi-stage ladder A includes the stopper mechanism 8, and when extended, prevents the middle ladder A2 and the upper ladder A3 from falling to the lower ladder A1 side. .
[0082]
As shown in FIGS. 1 and 2, the stopper mechanism 8 is provided inside the pillars 20 and 30 of the middle ladder A2 and the upper ladder A3, and is substantially Y-shaped so as to be engageable with the step bars 11 and 21. Hook-shaped fastener 81 is rotatably mounted.
[0083]
The hook-shaped fastener 81 is formed in a hook shape from the middle of a rotatable arm, and a pendulum body rotatable inward is provided at the tip.
[0084]
When the middle ladder A2 and the upper ladder A3 are extended, the middle ladder A2 is pulled up by a desired length, and the engaging portion of the hook-shaped fastener 81 is above the step 11 to be engaged. The body temporarily stops at a position below the step 21, and slowly loosens the operation rope 4 to engage the engaging portion with the step 11.
[0085]
The upper ladder A3 also extends in conjunction with the middle ladder A2, but the stopper mechanism 8 provided on the upper ladder A3 may be provided in advance at a position synchronized with the stopper mechanism 8 provided on the middle ladder A2.
[0086]
When the multi-stage ladder A is contracted, the middle ladder A2 is pulled upward until the pendulum body is positioned above the stairway 11, and the middle ladder A2 is slowly moved after the tip of the pendulum body is overlapped with the stairway 11. Pull down. Then, the pendulum body is pushed by the step rail 11 and rotates inward and upward to a position where the pendulum body covers and covers the engagement portion. Therefore, when lowering the middle ladder A2, the function of the stopper mechanism 8 is lost at the position of each step rail 11, and it can be lowered without any trouble.
[0087]
(5th Example)
The telescopic mechanism and the multi-stage ladder A according to the present invention have been described through the first to fourth embodiments. Applicable to
[0088]
Hereinafter, a case where the extension mechanism is applied to the floodlight B will be described with reference to FIGS. 13 and 14.
[0089]
As shown in FIG. 13, the floodlight B is capable of mounting a generator 91 and the like, and can be extended and retracted from a base 95 provided with a rolling wheel 92 and a grip 93 for movement and an outrigger 94 for stabilization. A telescopic column 96 provided with a handle 97 is erected, and a light device L is attached to an upper end of the telescopic column 96.
[0090]
The telescopic column 96 includes a fixed column 96a and first to third movable columns 96b, 96c, and 96d. The telescopic column 96 is provided with the telescopic mechanism described in each of the above-described embodiments, and performs the telescopic operation. By operating the handle 97, the telescopic column 96 can be extended or contracted to a desired height.
[0091]
That is, as shown in FIG. 14 schematically showing the expansion and contraction mechanism, the first column extends between the fixed column 96a serving as the base member and the first to third movable columns 96b, 96c and 96d serving as the movable members. An operation wire 98 for extending the movable column 96b and tuning bands 99a and 99b for reciprocally sliding the second and third movable columns 96c and 96d in conjunction with the reciprocating sliding of the first movable column 96b. Each has been crossed.
[0092]
More specifically, the first pulley 61 'is attached to a lower portion of one side of the fixed column 96a, and the take-up drum 97a having a lock function connected to the telescopic operation handle 97 (the lock portion 12 in each of the above embodiments is replaced by The second pulley 62 'is attached to the upper portion of the fixed column with the second column interposed therebetween, and the third pulley 63' is attached to the upper portion on the other side of the fixed column 96a.
[0093]
A fourth pulley 64 'and a fifth pulley 65' are arranged on the bottom of the first movable column 96b so as to face each other, and the sixth pulley 64a extends over the tuning band 99a on both upper sides of the first movable column 96b. A pulley 66 'and a seventh pulley 67' are provided. Further, an eighth pulley 68 'and a ninth pulley 69' are provided on both upper sides of the second movable column 96c so as to bridge the tuning band 99b.
[0094]
Then, one end of the operation wire 98 is connected and fixed to one inner surface of one side of the third movable column 96d, and the other end is extended downward, pulled out of the fixed column 96a, and wound around the first pulley 61 'from outside. The second pulley 62 'is wound around the take-up drum 97a a plurality of times, and then wound from the outside of the second pulley 62' to advance into the pillar, and is wound around the fifth pulley 65 'and the fourth pulley 64'. From the outside and wound around the third pulley 63 'of the fixed column 96a from the outside, again advance into the column, and connected to the vicinity of the fourth pulley 64' below the first movable column 96b.
[0095]
On the other hand, with respect to the tuning bands 99a and 99b, a pair of belts are independently disposed in this embodiment.
[0096]
That is, one end of the tuning band 99a for vertically moving the second movable column 96c is fixedly connected at one end to the bottom of one side of the second movable column 96c, and is connected to the sixth pulley 66 'provided on the first movable column 96b. It is wound and connected and fixed to an upper portion of one side of the fixed column 96a. The other end of the tuning band 99a for vertically moving the second movable column 96c has one end connected to and fixed to the other bottom of the second movable column 96c, and to the seventh pulley 67 'provided on the first movable column 96b. It is wound and connected and fixed to the upper part on the other side of the fixed column 96a.
[0097]
In addition, one end of the tuning band 99b for vertically moving the third movable column 96d is fixedly connected at one end to the bottom of one side of the third movable column 96d, and is provided at the upper end of one side of the second movable column 96c. It is wound around eight pulleys 68 'and connected and fixed to the upper end on one side of the first movable column 96b. The other end of the tuning band 99b that moves the third movable column 96d up and down is fixed at one end to the other bottom of the third movable column 96d, and is connected to a ninth pulley 69 'provided on the second movable column 96c. It is wound and connected and fixed to the other upper end of the first movable column 96b.
[0098]
According to the above configuration, by operating the telescopic operation handle 97, the first and second movable columns 96b are raised and lowered while the second and third movable columns 96c and 96d are raised and lowered in synchronization with the first movable column 96b. be able to. Also in this embodiment, one end of the operation wire 98 is connected and fixed to the third movable column 96d at the uppermost stage, and the winding drum 97a functions to lock the operation wire 98. There is no case where only the column 96d is raised.
[0099]
In addition, a chain or the like can be used instead of the operation wire 98. In this case, a sprocket may be used instead of the winding drum 97a and the first to third pulleys 61 'to 63'. In this case, the size can be reduced as a whole, and the holding force of the third movable column 96d increases as compared with the wire.
[0100]
【The invention's effect】
The present invention is embodied in the form described above, and has the following effects.
[0101]
(1) According to the first aspect of the present invention, a plurality of movable members including a columnar base member and a movable member at least in a lower stage and an upper stage are attached so as to be reciprocally slidable in the longitudinal direction of the base member. In a telescopic mechanism capable of expanding and contracting from a position where each movable member overlaps with the base member to a projecting position, the movable member extends between the base member and the plurality of movable members, and extends the lower movable member. Operation band, and in synchronization with the reciprocal sliding of the lower movable member, a tuning band for reciprocating sliding of other movable members including the upper movable member is bridged, and one end of the operation band is While the other end is connected and fixed to the base member, the other end is connected and fixed to the upper movable member, and further, an operation band lock means for locking the movement of the operation band is provided, and the operation band is locked. Department When extending and can be prevented that the upper movable member comes off from the movable member immediately below.
[0102]
Therefore, even if the upper movable member is lifted by itself, the movable member does not move upward, and the upper movable member is not unintentionally raised to an unstable state. In addition, there is no slack when the operation band is lowered, and no person is caught or tripped on the operation band.
[0103]
(2) According to the second aspect of the present invention, a plurality of movable members including a columnar base member and a movable member at least in a lower stage and an upper stage are attached so as to be reciprocally slidable in the longitudinal direction of the base member. In a telescopic mechanism capable of expanding and contracting from a position where each movable member overlaps with the base member to a projecting position, the movable member extends between the base member and the plurality of movable members, and extends the lower movable member. Operation band, and in synchronization with the reciprocating sliding of the lower movable member, a tuning band for reciprocating sliding of other movable members including the upper movable member is respectively bridged, and both ends of the operating band are , Each of which is connected to and fixed to the lower movable member, engages a middle portion of the operation band with the upper movable member, and further includes operation band lock means for locking the movement of the operation band, and locks the operation band. You By the time of extension of said upper movable member, and to be able to prevent the said upper movable member comes off from the movable member immediately below.
[0104]
Accordingly, similarly to the above (1), even if the upper movable member is to be lifted by itself, this movable member does not move upward, and the upper movable member is unintentionally raised to an unstable state. I won't let it. In addition, there is no slack when the operation band is lowered, and no person is caught or tripped on the operation band.
[0105]
(3) According to the third aspect of the present invention, one end of the tuning band is connected to the base member, and the other end is a free end. On the other hand, the engaging means for engaging the middle part of the operation band is suspended from the upper movable member via the elastic body.
[0106]
Therefore, when the free end side of the tuning band is lowered, only the upper movable member can be moved upward, and fine adjustment can be performed when the entire movable member is extended. Will be easier and safer.
[0107]
(4) Further, according to the present invention, a pair of right and left legs provided with a stepping bar for raising and lowering is provided, and the legs are fixed legs serving as a base member, and telescopic legs serving as a movable member. And a multi-stage ladder provided with the telescopic mechanism according to any one of claims 1 to 3.
[0108]
Therefore, even if the multi-stage ladder is leaned against the roof or the like, even if the upper ladder is pulled from the roof, the upper ladder and the middle ladder do not move upward, and the safety is significantly improved. In addition, there is no slack when the operation band is lowered, and no person is caught or tripped on the operation band.
[0109]
In addition, one end of the tuning band is connected to the lower ladder, the other end is a free end, and the middle of the free end is disposed so as to be able to be locked to the lower ladder, while the middle of the operation band is engaged. When the engaging means is suspended from the upper ladder via an elastic body, when the free end side of the tuning band is lowered, only the upper ladder can be moved upward, and fine adjustment when extending the multi-stage ladder is possible. This makes it easier and safer to use the ladder in places with height restrictions.
[Brief description of the drawings]
FIG. 1 is a front view of a multi-stage ladder according to a first embodiment.
FIG. 2 is a side view of the same.
FIG. 3 is a schematic explanatory view showing a contracted state of the multi-stage ladder.
FIG. 4 is a schematic explanatory view showing an extended state of the multi-stage ladder.
FIG. 5 is a schematic explanatory view showing a state where only the upper ladder of the multi-stage ladder is extended.
FIG. 6 is an explanatory view showing a state in which expansion and contraction of the multi-stage ladder is locked.
FIG. 7 is a schematic explanatory view showing a contracted state of a multi-stage ladder according to a second embodiment.
FIG. 8 is a schematic explanatory view showing an extended state of the multi-stage ladder.
FIG. 9 is a schematic explanatory view showing a contracted state of a multi-stage ladder according to a third embodiment.
FIG. 10 is a schematic explanatory view showing an extended state of the multi-stage ladder.
FIG. 11 is a schematic explanatory view showing a contracted state of a multi-stage ladder according to a fourth embodiment.
FIG. 12 is a schematic explanatory view showing an extended state of the multi-stage ladder.
FIG. 13 is a side view of a floodlight provided with a telescopic mechanism according to a fifth embodiment.
FIG. 14 is a schematic explanatory view showing the extension mechanism.
FIG. 15 is a schematic explanatory view showing a contracted state of a conventional multi-stage ladder.
FIG. 16 is a schematic explanatory view showing an extended state of a conventional multi-stage ladder.
[Explanation of symbols]
A multi-stage ladder
A1 lower ladder
A2 middle ladder
A3 Upper ladder
4 Operation rope
5 Synchronous belt (synchronous belt)
12 Lock section
53 Auxiliary belt

Claims (4)

A column-shaped base member, and a plurality of movable members including a movable member at a lower stage and an movable member at an upper stage which are attached so as to be reciprocally slidable in the longitudinal direction of the base member. In the telescopic mechanism that can expand and contract from the position where it overlaps to the projecting position,
An operation band for extending the lower movable member, extending between the base member and the plurality of movable members, and including an upper movable member in conjunction with reciprocal sliding of the lower movable member. And a tuning band for sliding the movable member back and forth, and one end of the operation band is connected and fixed to the base member, and the other end is connected and fixed to the upper movable member. Providing an operation band locking means for locking the movement so as to lock the operation band so that when the upper movable member is extended, the upper movable member can be prevented from falling off from the immediately lower movable member. A telescopic mechanism. A column-shaped base member, and a plurality of movable members including a movable member at a lower stage and an movable member at an upper stage which are attached so as to be reciprocally slidable in the longitudinal direction of the base member. In the telescopic mechanism that can expand and contract from the position where it overlaps to the projecting position,
An operation band for extending the lower movable member, extending between the base member and the plurality of movable members, and including an upper movable member in conjunction with reciprocal sliding of the lower movable member. And a tuning band that slides the movable member back and forth, and furthermore, both ends of the operation band are respectively connected and fixed to the lower movable member, and a middle part of the operation band is engaged with the upper movable member. Further, an operation band locking means for locking the movement of the operation band is provided, and by locking the operation band, when the upper movable member extends, the upper movable member falls off from the immediately lower movable member. A telescopic mechanism characterized in that the telescopic mechanism can be prevented. One end of the tuning band is connected to the base member, the other end is a free end, and a halfway of the free end side is disposed so as to be able to be locked to the base member, while the middle portion of the operation band is engaged. 3. The telescopic mechanism according to claim 2, wherein the means is suspended from an upper movable member via an elastic body. A pair of left and right pillars provided with a stepping bar for raising and lowering, wherein the pillars are composed of fixed legs serving as a base member and telescopic legs serving as a movable member, and any one of the above-mentioned claims 1 to 3. A multi-stage ladder comprising the telescopic mechanism according to claim 1.

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