KR102527192B1 - Height-Adjustable Elevating Lighting Tower - Google Patents

Abstract

The present invention relates to a lighting tower capable of moving a holding pipe up and down with a small force by using a plurality of pulleys.

Description

Height-Adjustable Elevating Lighting Tower

The present invention relates to an elevating and descending lighting tower whose height can be adjusted.

The lighting device is a device that provides light to a surrounding area by emitting light from a light source such as an LED provided therein.

Recently, a lighting tower equipped with a lighting device is fixedly installed in a sports stadium, and is used to secure a field of view for activities on the ground at night or in dark weather.

A lighting device is provided at the top of the lighting tower, and the height can be adjusted by raising and lowering a plurality of support tubes provided in the lighting tower.

For example, if it is necessary to secure the view in the installed space, the height of the lighting device is raised through the control of the driving device, and when securing the view is not required or repair is required, or to prepare for weather conditions such as bad weather, the height of the lighting device is increased. The control is performed by lowering the height.

However, since the method of controlling the height by raising and lowering a plurality of holding pipes is lifted collectively by relying on the wire for raising the holding pipe with the largest diameter, the wire for raising the holding pipe with the largest diameter has a plurality of There is a problem that the weight of the support pipe is concentrated and transmitted.

In addition, as the number of holding pipes increases and the height of the holding pipes increases, there is a problem in that the size of a power device that provides power for raising and lowering the holding pipes increases.

In addition, in the case of a method for adjusting the height by raising and lowering a plurality of holding pipes, a plurality of power transmission units are required, and there is also a problem of interference between the plurality of power transmission units.

Therefore, there is a need for a lighting tower capable of raising and lowering the holding tubes with little force and also preventing interference between power transmission units used to raise and lowering the plurality of holding tubes.

Korean Patent Publication No. 10-2010-0020605 (2010.02.23)

The present invention has been made to solve the above problems.

Specifically, it is an object of the present invention to provide a lighting tower capable of moving a holding pipe up and down with a small amount of force by using a plurality of pulleys.

In addition, since a method in which a plurality of pulleys are used and a wire is wound therein is adopted, the purpose is to provide a lighting tower in which a driving force is sufficiently transmitted even when a thinner wire is used than other driving methods.

In addition, since the winding direction of the wire to the driving device and the wire traveling direction of the holding tube are perpendicular to each other, an object thereof is to provide a light tower having a smaller volume than a conventional light tower.

In addition, since the drive device is installed on the foundation structure, the object is to provide a light tower capable of lifting the holding pipe with a smaller drive device than the conventional light tower and installing a plurality of drive devices if necessary.

In addition, it is an object of the present invention to provide a lighting tower capable of preventing safety problems such as a limit switch and a stopper being provided so that the holding pipe rises higher than a preset height.

In addition, the purpose is to provide an excellent lighting tower in terms of maintenance because the power transmission units are detachably installed outside the holding pipe.

One embodiment of the present invention for solving the above problems is a hollow foundation structure, a first holding pipe inserted into the foundation structure, a second holding pipe inserted into the first holding pipe, and installed in the foundation structure A first power transmission unit including a power unit and a plurality of pulleys provided outside the first holding tube and connected to the power unit through wires, wherein the first power transmission unit is provided in the first holding tube And, a first upper power transmission unit including at least one pulley around which the wire is wound and fixed to the first holding tube at a position separated by a predetermined distance from the first upper power transmission unit, at least around which the wire is wound A first lower power transmission unit including one pulley, wherein the relative position of the first upper power transmission unit is changed by the operation of the power unit so that the first holding pipe moves up and down with respect to the foundation structure. 1 Provides a height-adjustable elevating lighting tower including a lower power transmission unit.

In one embodiment, the pair of second power transmission units provided outside the second holding tube and including pulleys are further included, and one end of the wire wound around the pulley of the pair of second power transmission units is the foundation. It is fixed to the structure and the other end may be fixed to the second holding pipe.

In one embodiment, when the first holding pipe moves up and down with respect to the base structure by the operation of the power unit, the length between the pulley of the second power transmission unit and one end of the wire wound around the pulley and the pulley By changing the length between the second holding pipe and the other end of the wire wound around the pulley, the second holding pipe may move up and down relative to the first holding pipe.

In one embodiment, the third holding pipe inserted into the second holding pipe, a pair of third power transmitting parts provided outside the third holding pipe and including a pulley, wherein the pair of third holding pipes are provided. One end of the wire wound around the pulley of the power transmission unit may be fixed to the first holding pipe and the other end may be fixed to the third holding pipe.

In one embodiment, the first holding pipe and the second holding pipe are made in the form of N pillars (N is an integer of 3 or more), and the first power transmission unit and the second power transmission unit have the N It may be provided on different sides of each pillar.

In one embodiment, the first holding tube and the second holding tube are made in the form of an octagonal column, and the first power transmission unit and the second power transmission unit are provided on different surfaces of the octagonal column. can

In one embodiment, the first holding pipe, the second holding pipe, and the third holding pipe are made in the form of N-shaped pillars (N is an integer of 3 or more), the first power transmission unit, and the The second power transmission unit and the third power transmission unit may be provided on different surfaces of the N pillar.

In one embodiment, the first holding pipe, the second holding pipe, and the third holding pipe are made in the form of an octagonal pillar, and the first power transmission part and the second power transmission part are of the octagonal pillar. It is provided on different surfaces, and the second power transmission unit and the third power transmission unit may be provided on different surfaces of the octagonal column.

In one embodiment, the power unit includes a driving motor and a winding unit that rotates together by rotation of the driving motor, and a moving direction of a wire wound around the pulley by rotation of the driving motor and the winding unit Moving directions of the wires to be wound may be perpendicular to each other.

In one embodiment, the base structure may further include a guide part for guiding winding of the wire to the winding part.

In one embodiment, a limit switch installed in the space between the foundation structure and the first holding pipe and limiting the operation of the power unit when in contact with the upper portion of the second power transmission unit may be further included.

In one embodiment, a stopper provided at a position higher than the limit switch to limit the movement of the second power transmission unit to the upper portion may be further included.

In one embodiment, it may further include a light holder installed on the upper part of the second holding pipe and in which the light is mounted.

According to the present invention described above, as a plurality of pulleys are used, it is possible to elevate the holding pipe with little force.

In addition, since a method in which a plurality of pulleys are used and a wire is wound therein is adopted, driving force is sufficiently transmitted even when a thinner wire is used compared to other driving methods.

In addition, since the winding direction of the wire to the driving device and the direction of the wire propagation of the holding pipe are perpendicular to each other, the volume is smaller than that of the conventional lighting tower.

In addition, since the driving device is installed on the foundation structure, it is possible to raise and lower the column with a smaller driving device compared to the conventional light tower, and it is also possible to install a plurality of driving devices if necessary.

In addition, it is possible to prevent a safety problem such as a limit switch and a stopper being provided so that the holding pipe rises higher than a preset height.

In addition, since the power transmission units are detachably installed outside the holding pipe, it is excellent in terms of maintenance.

1 is a schematic diagram for explaining a lighting tower according to an embodiment of the present invention.
FIG. 2 is a schematic diagram for explaining the appearance of the lighting tower of FIG. 1 according to the elevation of the holding pipe.
3 is a schematic diagram for explaining a coupling relationship between a power unit provided in a foundation structure and a first power transmission unit provided between the foundation structure and a first holding pipe.
Figure 4 is a schematic view for explaining the coupling relationship between the power unit provided in the foundation structure and the first power transmission unit provided between the foundation structure and the first holding pipe, a view viewed from a different side from Figure 3 am.
5 is a view for explaining a coupling relationship between a power unit, a first power transmission unit, and holding pipes.
6 and 7 are views for explaining a limit switch and a stopper.
8 is a schematic diagram for explaining a power device, a power transmission unit, wires, and holding pipes, which are components for raising and lowering a holding pipe in a light tower according to an embodiment of the present invention.
FIG. 9 is a more simplified view of FIG. 8, and is a view for explaining the coupling relationship between the holding tube, the power transmission unit, and the wire.
10 is a plan view for explaining the arrangement relationship of power transmission units.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1, a lighting tower 1 according to an embodiment of the present invention will be described in detail.

The lighting tower 1 according to an embodiment of the present invention includes a base B, a foundation structure 10, a first holding pipe 20, a second holding pipe 30, a third holding pipe 40, a power unit ( 50) and power transmission units 60, 70 and 80.

At least a part of the base (B) is installed below the ground in the space where the lighting tower (1) needs to be installed. That is, the base (B) is installed below the ground and serves as a support for the lighting tower (1).

The foundation structure 10 is coupled to the base B, and at least a part thereof is exposed to the upper part of the ground. The base structure 10 is provided in the form of a hollow column, and the first holding pipe 20 , the second holding pipe 30 , and the third holding pipe 40 are inserted through the hollow of the base structure 10 . In one embodiment, the foundation structure 10 may have the shape of a hollow octagonal pillar, but is not particularly limited thereto and may have an arbitrary N-shaped pillar (N is an integer of 3 or more).

The power unit 50 is installed in the foundation structure 10, and the first holding pipe 20 is inserted into the hollow of the foundation structure 10. That is, the first holding pipe 20 has a smaller diameter than the base structure 10 .

The power device 50 is a component that provides power for the elevating and descending of the first holding pipe 20, the second holding pipe 30, and the third holding pipe 40, which will be described later, and the first power transmission unit 60 ) is a configuration that transmits the power provided by the power device 50 so that it can be used to raise and lower the first holding pipe 20.

It will be described in detail with reference to FIGS. 3 and 4 .

The first power transmission unit 60 may be provided as a pair (arranged opposite to each other), and each first power transmission unit 60 is a first coupling cap coupled to the upper portion of the first holding pipe 20 ( It includes a first upper power transmission unit 61 coupled to 60a) and a first lower power transmission unit 64 fixed to a lower portion of the first holding pipe 20 .

The first upper power transmission unit 61 may include one or more pulleys, and more specifically, two pulleys 62 and 63. In other examples, it may include three or more pulleys.

Among the two pulleys 62 and 63 provided in the first upper power transmission unit 61, one pulley 62 has a larger diameter than the other pulley 63, and the larger diameter pulley 62 has a larger diameter. It is located higher than the small pulley 63.

The first lower power transmission unit 64 may also include one or more pulleys, and more specifically, may include the same number of pulleys as the pulleys of the first upper power transmission unit 61 . 3 shows an aspect in which the first lower power transmission unit 64 includes two pulleys 65 and 66 .

The two pulleys 65 and 66 of the first lower power transmission unit 64 are disposed symmetrically with the arrangement direction of the two pulleys 62 and 63 of the first upper power transmission unit 61, that is, the diameter is larger. The larger pulley 65 is positioned lower than the smaller diameter pulley 66 .

As the two pulleys 62 and 63 of the first upper power transmission unit 61 and the two pulleys 65 and 66 of the first lower power transmission unit 64 are disposed in the longitudinal direction of the holding tube, the existing light tower It is possible to raise/lower the pillars with 1/4 less force than the previous one.

The power unit 50, the first upper power transmission unit 61 and the first lower power transmission unit 64 are connected to each other by one wire W1. Therefore, the distance between the first upper power transmission unit 61 and the first lower power transmission unit 64 is varied by the operation of the power unit 50, so that the distance between the first holding pipe 20 with respect to the foundation structure 10 Up and down movement can be made.

On the other hand, the first lower power transmission unit 64 is fixedly installed to the first holding pipe 20, and the power device 50, the first upper power transmission unit 61 and the first lower power transmission unit 64 are One end of the connecting wire W1 is fixed to the first upper power transmission unit 61, and the other end is wound around the take-up unit 52 of the power unit 50 by rotation of the power unit 50 or unwinded. do.

That is, when the drive motor 51 of the power unit 50 rotates in the direction in which the wire W1 is wound around the winding unit 52, the first upper power transmission unit 61 and the first lower power transmission unit 64 ) becomes closer, so that the first holding pipe 20 fixed to the first lower power transmission unit 64 rises with respect to the base structure 10 .

In addition, when the drive motor 51 rotates in the direction in which the wire W1 is unwound from the winding unit 52, the distance between the first upper power transmission unit 61 and the first lower power transmission unit 64 increases. In this case, the first holding pipe 20 fixed to the first lower power transmission unit 64 descends with respect to the base structure 10.

A guide unit 90 may be further provided between the power unit 50 and the first power transmission unit 60 .

The power device 50 is installed on the foundation structure 10 by the installation frame F, and includes a drive motor 51 as a power source and a winding part 52 around which the wire W1 is wound.

Here, the moving direction of the wire W1 wound around the take-up unit 52 and the moving direction of the wire W1 wound around the pulley of the first power transmission unit 60 are different from each other. Although the moving direction of the wire W1 wound around the pulley of the first power transmission unit 60 is parallel to the longitudinal direction of the first holding tube 20, the direction of movement of the wire W1 wound around the winding unit 52 The moving direction is a longitudinal direction and an inclined direction of the first holding tube 20, more specifically, a vertical direction.

The guide unit 90 serves to guide the moving direction of the wire W1 as it changes.

Specifically, the guide unit 90 includes a guide frame 91 installed on the foundation structure 10 and a plurality of guide rods 92 installed at an angle while being spaced apart from each other on the guide frame 91, and the wire W1 ) The moving direction can be smoothly changed by passing through the space of the plurality of guide rods 92. In other words, since the guide part 90 is provided, the wire twist problem that may occur when the moving direction of the wire W1 is changed can be solved.

On the other hand, since a safety risk may occur when the first holding pipe 20 rises to a position higher than a predetermined height, the present invention includes the following configuration for limiting the rising height of the first holding pipe 20 do.

The first holding pipe 20 has a smaller diameter than the foundation structure 10, and therefore, the outer surface of the first holding pipe 20 and the foundation structure ( 10) A predetermined space is formed between the inner surfaces.

A limit switch (S1) may be installed in the predetermined space, and the limit switch (S1) is electrically connected to the power unit (50). In the predetermined space, the first lower power transmission unit 64 can move relative to the first upper power transmission unit 61, and the upper side of the first lower power transmission unit 64 contacts the limit switch S. In this case, the limit switch S1 transmits a command to limit the rotation of the drive motor 51 to the power unit 50.

The limit switch S1 may be installed under the guide frame 91 and extend to a space between the foundation structure 10 and the first holding pipe 20 (see FIGS. 6 and 7 ).

In addition, in the present invention, a stopper S2 may be further provided at a position higher than the limit switch S1 (see FIG. 6).

While the limit switch S1 limits the additional upward movement of the first holding tube 10 in an electronically controlled manner, the stopper S2 limits the additional upward movement of the first holding tube 10 in a physical manner.

That is, the stopper S2 is also provided in the space between the base structure 10 and the first holding pipe 20, specifically, in the movement path of the first lower power transmission unit 64 in the space, so that the first lower power transmission The part 64 is allowed to move only up to the height formed in the stopper S2.

The second holding pipe 30 is inserted into the hollow of the first holding pipe 20 . That is, the second holding pipe 30 has a smaller diameter than the diameter of the first holding pipe 20 .

When the second holding pipe 30 is inserted into the first holding pipe 20, another space is formed between the inner surface of the first holding pipe 20 and the outer surface of the second holding pipe 30, and the other A second power transmission unit 70 is installed in the space.

The second power transmission unit 70 may be provided as a pair, and the first upper power transmission unit 61 and the first lower power transmission unit 64 of the first power transmission unit 60 are vertically disposed, while , There is a difference in that the pair of power transmission units of the second power transmission unit 70 are disposed symmetrically. In another aspect of the present invention, it is possible that only one second power transmission unit 70 is provided instead of a pair, but it is preferable that the second holding pipe 30 is provided in a pair for more stable elevating and descending. .

The pair of second power transmission units 70 include a second left power transmission unit 71 coupled to the second coupling cap 70a coupled to the upper portion of the second holding pipe 30, and a second coupling cap ( 70a) and a second right power transmission unit 73 symmetrically arranged with the second left power transmission unit 71.

The second left power transmission unit 71 and the second right power transmission unit 73 differ only in their installation positions and have the same configuration. Hereinafter, only the first left power transmission unit 71 is used. Be specific.

The second left power transmission unit 71 includes one pulley 72, and the wire W2 is wound around the pulley 72.

One end of the wire W2 is fixed to the base structure 10 and the other end is fixed to the second holding pipe 30 . Specifically, one end of the wire W2 is fixed to the lower part of the base structure 10 and the other end to the lower part of the second holding pipe 30 .

The distance between the first upper power transmission unit 61 and the second lower power transmission unit 64 is varied by rotation of the drive motor 51 so that the first holding pipe 20 rises with respect to the base structure 10 The fact that it is possible to descend has been described above.

As one end of the wire W2 wound around the pulley 72 of the second power transmission unit 70 is fixed to the base structure 10 and the other end is fixed to the second holding pipe 30, the first holding pipe ( 20), the length starting from the pulley 72 to one end of the wire W2 and the length starting from the pulley 72 to the other end of the wire W2 are varied.

That is, when the first holding pipe 20 rises from the base structure 10, the length starting from the pulley 72 and ending at one end of the wire W2 becomes longer, and starting at the pulley 72, the other end of the wire W2 The length ending at is shortened. In other words, the first holding pipe 20 rises from the base structure 10 and the second holding pipe 30 rises from the first holding pipe 20 in conjunction with it.

Referring to FIG. 10 , the pair of second power transmission units 70 are disposed opposite to each other, but are disposed on different sides (different sides of the octagonal column) from the first power transmission unit 60 . Specifically, the first power transmission unit 60 and the pair of second power transmission units 70 are disposed at intervals of 90 degrees from each other.

As the first power transmission unit 60 and the second power transmission unit 70 are disposed on different surfaces of the octagonal column, the vertical movement of each holding tube can be performed more stably.

The third holding pipe 40 is inserted into the hollow of the second holding pipe 30 . That is, the third holding pipe 40 has a diameter smaller than that of the second holding pipe 30 .

When the third holding pipe 40 is inserted into the second holding pipe 30, another space is formed between the inner surface of the second holding pipe 30 and the outer surface of the fourth holding pipe 40. A third power transmission unit 80 is installed in the space.

The third power transmission unit 80 may be provided as a pair, while the first upper power transmission unit 61 and the first lower power transmission unit 64 of the first power transmission unit 60 are vertically disposed. , There is a difference in that the pair of power transmission units of the third power transmission unit 80 are disposed symmetrically. In another aspect of the present invention, it is possible that only one third power transmission unit 80 is provided instead of a pair, but it is preferable to provide a pair for more stable third holding pipe 40 for lifting and lowering. .

The pair of third power transmission units 80 include a third left power transmission unit 81 coupled to the third coupling cap 80a coupled to the upper portion of the third holding pipe 40, and a third coupling cap ( 80a) and a third rear power transmission unit 83 symmetrically disposed with the third front power transmission unit 81 .

The third front power transmission unit 81 and the third rear power transmission unit 83 differ only in their installation positions and include the same configuration. Hereinafter, only the third front power transmission unit 81 is provided. Be specific.

The third front power transmission unit 81 includes one pulley 82, and a wire W3 is wound around the pulley 82.

One end of the wire W3 is fixed to the first holding tube 20 and the other end is fixed to the third holding tube 40 . Specifically, one end of the wire W3 is fixed to the lower portion of the first holding tube 20 and the other end to the lower portion of the third holding tube 40 .

The distance between the first upper power transmission unit 61 and the second lower power transmission unit 64 is varied by rotation of the drive motor 51 so that the first holding pipe 20 rises with respect to the base structure 10 It has been described above that the second holding pipe 30 can move up and down with respect to the first holding pipe 20 in association with the lowering.

As one end of the wire W3 wound around the pulley 82 of the third power transmission unit 80 is fixed to the first holding pipe 20 and the other end is fixed to the third holding pipe 40, the second supporting pipe When the main pipe 30 is raised and lowered, the length starting from the pulley 82 to one end of the wire W3 and the length starting from the pulley 82 to the other end of the wire W3 are varied.

That is, when the second holding pipe 30 rises from the first holding pipe 20, the length starting from the pulley 82 and ending at one end of the wire W3 increases, and starting from the pulley 82, the wire W2 ), the length ending at the other end becomes shorter. In other words, the second holding pipe 30 rises from the first holding pipe 20 and the third holding pipe 40 rises from the second holding pipe 30 in conjunction with it.

Referring to FIG. 10, the pair of third power transmission units 80 are disposed opposite to each other, but are disposed on a different surface (different surface of the octagonal column) from the second power transmission unit 60, and the pair of At least one of the third power transmission units 70 may be disposed on the same surface as the first power transmission unit 60 . Specifically, the pair of third power transmission units 80 and the pair of second power transmission units 70 are spaced apart from each other by 90 degrees.

An upper portion of the third holding pipe 40 is installed with a light holder in which the lighting device L can be mounted. As the height of the holding tubes 20, 30, and 40 rises and falls with respect to the base structure 10, the lighting height of the lighting device L mounted on the lighting holder may also be adjusted.

In the above, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but this is only exemplary, and those skilled in the art can make various modifications and equivalents from the embodiments of the present application. It will be appreciated that embodiments are possible. Therefore, the protection scope of the present application should be determined by the claims.

1: light tower
10: foundation structure
20: 1st holding pipe
30: 2nd holding pipe
40: 3rd holding pipe
50: power unit
51: drive motor
52: winding unit
60: first power transmission unit
60a: first coupling cap
61: first upper power transmission unit
62, 63: pulley
64: first lower power transmission unit
65, 66: pulley
70: second power transmission unit
70a: second coupling cap
71: second left power transmission unit
72: pulley
73: second right power transmission unit
80: third power transmission unit
80a: third coupling cap
81: third left power transmission unit
82: pulley
83: third right power transmission unit
90: guide unit
91: guide frame
92: guide rod
S1: limit switch
S2: stopper
W1, W2, W3: wire

Claims (13)

hollow base structures;
A first holding pipe inserted into the foundation structure;
a second holding pipe inserted into the first holding pipe;
a third holding pipe inserted into the second holding pipe;
a power unit installed on the foundation structure;
A first power transmission unit including a plurality of pulleys provided outside the first holding pipe and connected to the power unit through wires;
a pair of second power transmission units provided outside the second holding tube and including pulleys; and
A pair of third power transmission units provided outside the third holding pipe and including a pulley;
The first power transmission unit,
a first upper power transmission unit provided in the first holding pipe and including a plurality of pulleys around which the wire is wound; and
A first lower power transmission unit including a plurality of pulleys fixed to the first holding pipe at a position apart from the first upper power transmission unit downward by a predetermined distance and around which the wire is wound, wherein the power unit operates A first lower power transmission unit in which the relative position with respect to the first upper power transmission unit is changed so that the first holding pipe moves up and down with respect to the foundation structure; includes,
When the first holding pipe moves up and down with respect to the base structure by the operation of the power unit, the length between the pulley of the second power transmission unit and one end of the wire wound around the pulley and the length between the pulley and the wire wound around the pulley By changing the length between the other ends of the wire, the second holding pipe moves up and down relative to the first holding pipe,
a limit switch installed in a space between the foundation structure and the first holding pipe to limit the operation of the power unit when in contact with an upper portion of the first lower power transmission unit; and
A stopper provided on a movement path of the first lower power transmission unit in the space and provided at a position higher than the limit switch to limit movement of the first lower power transmission unit to an upper portion; further comprising,
One end of the wire wound around the pair of pulleys of the second power transmission unit is fixed to the foundation structure and the other end is fixed to the second holding pipe,
One end of the wire wound around the pulley of the pair of third power transmission units is fixed to the first holding pipe and the other end is fixed to the third holding pipe,
The first holding pipe to the third holding pipe are made in the form of an octagonal column,
The pair of second power transmission units are provided on surfaces of the second holding tube facing each other,
The pair of third power transmission units are provided on surfaces of the third holding tube having a vertical relationship with the surfaces of the second holding tube provided with the pair of second power transmission units, respectively, and the surface of the third holding tube. are in a relationship with each other,
The first power transmission unit is provided on one surface of the first holding tube having a vertical relationship with the surfaces of the second holding tube provided with the pair of second power transmission units,
Elevating light tower with adjustable height.
delete delete delete delete delete delete delete According to claim 1,
The power unit,
drive motor; and
A winding unit that rotates together with the rotation of the drive motor; includes,
The movement direction of the wire wound around the pulley by rotation of the drive motor and the movement direction of the wire wound around the winding unit are perpendicular to each other,
Elevating light tower with adjustable height.
According to claim 9,
A guide unit provided on the base structure and guiding winding of the wire to the winding unit; further comprising:
Elevating light tower with adjustable height.
delete delete According to claim 1,
Further comprising a light holder installed on the upper part of the second holding tube and in which light is mounted,
Elevating light tower with adjustable height.

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