JPH0546331Y2 - - Google Patents

Description

[Detailed description of the invention] a. Field of industrial application The present invention relates to an antenna steadying mechanism, particularly to a steadying mechanism for maintaining the mounting direction of an antenna against wind pressure of the antenna mounted on a communication tower. .

Antenna systems are important in communication facilities. However, in order to take advantage of the antenna characteristics, it is important to maintain the directionality of the antenna.

b. Prior Art FIG. 2 is a side view of an antenna tower using a conventional antenna steadying mechanism as seen from a diagonal direction, and FIG. 3 is a sectional view taken along the line -- in FIG. 2.

Antenna A is attached to an antenna support pole P fixed to an antenna support column. A steadying strut S is installed between the antenna and the steel tower material to maintain the directionality of the antenna. A large horizontal load is applied to the steel tower material at the strut receiver through the steadying strut due to the wind pressure of the antenna.

In order to prevent horizontal movement and deflection of the strut receiving part of the steel tower due to this horizontal load, a flat truss made of steel materials such as angle iron and steel pipes is installed within the tower internal plane of the strut receiving part with bolts, as shown in Figure 3. It is constructed by joining.

c Problems that the invention aims to solve When applying the antenna steadying mechanism according to the prior art to a medium-sized or larger self-supporting tower, the distance between the main members is large and a compression member is included, so a large number of secondary members are required. shall be. Therefore, the manufacturing and assembly costs of the antenna are high.

The object of the present invention is to provide an antenna stabilization mechanism that has a sufficient stabilization effect without requiring a planar truss within the plane of the tower.

d Means for solving the problem The above problem consists of an antenna tower having a substantially square horizontal cross section, an antenna fixed to one support of the antenna tower, and at least two points of the antenna fixed to the antenna tower using steady-bracing struts. In the antenna support device connected to
Assuming that the antenna is installed in the vicinity of point B ₀ on pillar B as C and D, one point P ₀ on the side including pillar A and pillar B, and one point on the side including pillar C and pillar B. Brace member 3 fixed to the antenna tower at Q ₀ , the above point P ₀ and support C
The turnbuckle brace member 1 connects the above point C ₀ via the turnbuckle 1a, and the above point Q ₀
and a turnbuckle brace member 2 that connects a point _A0 on the support post A via a turnbuckle 2a,
The points B ₀ , P ₀ , Q ₀ , A ₀ , and C ₀ are located in substantially the same horizontal plane, and tension is applied to the turnbuckle brace members 1 and 2 by the turnbuckles 1a and 2a, respectively. This problem was solved by a unique antenna support device.

e Effect Twisting in the direction of reducing the distance between points P ₀ and C ₀ due to wind pressure applied to the antenna is prevented by the turnbuckle brace member connecting points Q ₀ and A ₀ . Conversely, twisting in a direction that reduces the distance between points Q ₀ and A ₀ is prevented by the turnbuckle brace member connecting points P ₀ and C ₀ .

The deformation in the tower internal plane of the antenna tower due to the tension of both turnbuckle brace members mentioned above is
It is blocked by a brace member connecting P ₀ and point Q ₀ .

f Embodiment FIG. 1 is a conceptual perspective view of the middle portion of an antenna tower to which the antenna steadying mechanism according to the present invention is applied. In this drawing, parts unnecessary for explaining the present invention are omitted to make the drawing easier to see.

The antenna tower consists of four pillars A, B, C, and D placed at the four corners so that the horizontal cross section is square.
and a connecting member for connecting adjacent columns. In this figure, the antenna ANT is mounted near a point B ₀ on the support post B.

Two points A ₁ and A ₂ on support A adjacent to support B
B ₀ are connected by the first and second diagonal connecting members, respectively, points P ₁ and P ₂ on the first and second diagonal connecting members are connected by the first vertical connecting member, and the pillars adjacent to the pillar B Two points C ₁ , C ₂ and B ₀ on C are connected by the third and fourth diagonal connecting members, respectively, and points Q ₁ and Q ₂ on the third and fourth diagonal connecting members are connected by the second vertical connecting member. Connected by members. Intersection points ₀ and Q ₀ between the horizontal plane passing through B ₀ and the first and second vertical connecting members are connected to point B ₀ by first and second horizontal connecting members 7 and 8, respectively.

The intersection of the horizontal plane passing through point B ₀ and supports A, C, and D is
When A ₀ , C ₀ , D ₀ , the above intersection points P ₀ , Q ₀ and C ₀ ,
Round bar turnbuckle brace members 1 and 2 are stretched between A ₀ and intersection points P ₀ and Q ₀ are connected by a brace member 3, respectively.

FIG. 4 is a cross-sectional view in a horizontal plane passing through point B ₀ in FIG.

In this figure, there are four pillars A, B, C, D.
Since the first and second vertical connecting members are made of angle iron, they are each represented by an L-shaped cross section.

The turnbuckle brace members 1 and 2 each consist of a round bar turnbuckle member, each of which has a point at both ends.
A ₀ , C ₀ , P ₀ , Q ₀ are each fixed with bolts,
The necessary tension is applied using turnbuckles 1a, 2a. In this embodiment, the brace member 3 connecting the points P ₀ and Q ₀ is fixed with bolts to the portions of the first and second horizontal connecting members 7 and 8 adjacent to P ₀ and Q ₀ , respectively. FIG. 5 shows the fixation of the turnbuckle brace member at points A ₀ and C ₀ , and FIG. 6 shows the fixation of the turnbuckle brace member at points P ₀ and Q ₀ .

The first and second horizontal connecting members 7, 8 are bridged by a strut fixing member 4 separate from the connecting member 3, as shown in FIG.

The strut fixing member 4 includes a first angle steel portion 4a fixed to the first and second horizontal connection members 7 and 8 with bolts, and a second angle steel portion 4a fixed to the first angle steel portion 4a with bolts. It consists of a steel section 4b, and a hole 4c for fixing the steadying strut is bored in the second angle iron section.

FIG. 7 shows how the antenna support pole 5 is attached to the antenna column. Attachment of the antenna support pole to the antenna post and attachment of the antenna to the antenna support pole can be performed by methods known in the art.

An antenna steadying strut 6 is stretched between the antenna attached to the antenna support pole and the strut fixing member.

g. Effect of the invention The effect of stabilizing the antenna can be obtained without constructing a large number of planar trusses within the antenna tower.

[Brief explanation of the drawing]

FIG. 1 is a conceptual perspective view of the middle part of an antenna tower to which the antenna steadying mechanism according to the present invention is applied;
Fig. 2 is a side view of a steel tower using a conventional antenna stabilization mechanism as seen from the diagonal direction, Fig. 3 is a sectional view taken along the - line in Fig. 2, and Fig. 4 is a point in Fig. 1.
Cross-sectional view in the horizontal plane passing through B ₀ , Figure 5 is the point C ₀
A side view of the antenna tower in the vicinity, Figure 6 is a point
FIG. 7 is a side view of the antenna tower near P ₀ . FIG. 7 is a side view of the antenna tower near the antenna support pole. 1, 2... Turnbuckle brace member, 3...
...Brace member, 4...Strut fixing member,
5...Antenna support pole, 6...Stabilizing strut.

Claims (1)

[Scope of utility model registration request] An antenna support device comprising an antenna tower having a substantially square horizontal cross section, an antenna fixed to one support of the antenna tower, and at least two points of the antenna connected to the antenna tower by a steadying strut. As a mechanism, the pillars at the four corners of the steel tower are designated as pillars A, B, C, and D in order,
Assuming that the antenna is installed near point B ₀ on support B, one point P ₀ on the side including support A and support B, and one point on the side including support C and support B.
A brace member 3 fixed to the antenna tower at Q ₀ , a turnbuckle brace member 1 connecting the above point P ₀ and a point C ₀ on the support column C via a turnbuckle 1a, and a turnbuckle brace member 1 connecting the above point Q 0 and the point C ₀ on the support support A. Single point
A turnbuckle brace member 2 is provided to connect A ₀ via a turnbuckle 2a, and the points B ₀ , P ₀ ,
An antenna support device characterized in that Q ₀ , A ₀ , and C ₀ are located in substantially the same horizontal plane, and tension is applied to the turnbuckle brace members 1 and 2 by the turnbuckles 1a and 2a, respectively.