JPH0115210Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to an antenna support column, and in particular, an object of the present invention is to provide an antenna support column with improved waterproofness of a power feeding section.

One type of wireless antenna is a dipole antenna that is installed vertically on the wall of a building.
A conventional dipole antenna has a structure shown in FIG. 1, for example, in which an antenna element 1 is attached to a building wall 2.
It is attached to the tip of the antenna support column 3 which is screwed to the antenna support column 3. The coaxial cable 4 is soldered to the egg lug 5 and connected to the antenna element 1, and is mounted along the support column 3. 6 is a soldering part. Here, the connection point (feeding part) between the coaxial cable 4 and the antenna element 1 is completely exposed, so especially when the antenna is installed outdoors, the connection point is unprotected and exposed to wind and rain. The problem was that rust and corrosion were more likely to occur, and furthermore, rainwater seeped into the coaxial cable, reducing signal transmission efficiency. Therefore, in order to eliminate these drawbacks, it is conceivable to have a structure in which the power supply section is housed in a box section with a lid, so that the power supply section has a waterproof structure. However, if the box part with a lid has a normal structure, especially when it rains heavily, rainwater that collects on the top surface of the box part may seep into the box part through the lid attachment part. However, there was a problem that sufficient waterproofness could not be obtained.

Therefore, the present invention solves the above problems, and one embodiment thereof will be described below with reference to the drawings.

FIG. 2 shows a 1/2 wavelength vertical dipole antenna which is an embodiment of the present invention. This dipole antenna 10 is generally comprised of three antenna support columns 12A, 12 that are vertically aligned and attached to a mounting surface 11 such as an outer wall of a building in a state that projects horizontally from the mounting surface 11.
B, 12C, and antenna elements 13a to 13d supported on the tip side of the antenna support column in a linearly connected state.

The antenna support columns 12A, 12B, 12C are
It is a resin molded product such as ABS, and as shown in FIGS. 3A to 3C, it roughly consists of a main body part 14, a mounting leg part 15 on the base side, and a box part on the tip side that forms the main part of the present invention. It consists of 16 and more. This antenna support column 12A
is a structure that is symmetrical with respect to a plane containing the longitudinal axis of the main body portion 14 and the longitudinal axis of the leg portions 15. In the installed state, the box part 16 has a cover (lid) 17.
is installed.

As shown in FIGS. 4 and 5, the main body 14 has an H cross-sectional structure consisting of a central horizontal wall 18 that faces horizontally in the installed state, and a pair of vertical walls 19 and 20 in front and behind the central horizontal wall 18. , has coaxial cable mounting grooves 21a and 21b on the upper and lower sides. Also, this main body part 1
4 has a coaxial cable latching mechanism 2 approximately in the center.
2, and a coaxial cable guide mechanism 23 is provided at a position closer to the box portion 16 side than this. Mechanism 22
consists of an opening 24 formed in the central horizontal wall 18 and a locking guide protrusion 25 protruding into the opening 24 from the vertical wall 20. The mechanism 23 is connected to the central horizontal wall 18
It consists of ribs 26 and 27 that protrude further up and down. The tip of each rib 26, 27 has a concave portion 26a, 27
It is listed as a.

Vertical and horizontal long holes 28 and 29 are formed in the mounting leg portion 15, and the leg portion 15 is fixed on the mounting surface 11 by screwing through the long holes 28 and 29.

The box portion 16 includes a bottom plate portion 30 and a peripheral side wall 3 surrounding the four sides.
1, and has an opening 33 on one side facing to the side when the antenna is installed, and the antenna element and the coaxial cable are connected inside this as will be described later. Further, as shown in FIG. 6, the upper and lower walls and the tip wall of the circumferential wall 31 are both thick walls, but the wall on the main body side, that is, the partition wall with the grooves 21a and 21b. 32a, 32
b is a thin wall. This thin partition wall 32
a and 32b do not break during handling,
The thickness is set to be 0.5 mm, for example, so that it can be penetrated by pushing the tip firmly using a tool such as a screwdriver.

In this box part 16, as shown in FIGS. 7 and 8, bolts 40, 41 are attached to threaded parts 40a, 4.
1a is attached by nuts 42 and 43 with the portion 1a projecting in the vertical direction. Further, terminals 44 and 45 are fixed within the box portion 16 by bolts 40 and 41, respectively. The antenna elements 13b and 13c are screwed into threaded portions 40a and 41a, respectively. As shown in FIG. 9, the coaxial cable 46 passes into the box part 16 through an opening 50 that is formed by using a screwdriver or the like to break through the thin partition wall 32b in a place where rainwater is most difficult to penetrate. Here, the inner conductor 46a is fixed with the special screw 4.
7 to the terminal 44, and the outer conductor 46b to the terminal 45 by the bracket 48 and screw 49.
and is connected to the antenna element within the box portion 16. A lid 17 is attached to the box portion 16 so as to cover the opening 33. Further, the terminals 44, 45, special screws 47, brackets 48, and screws 49 are all nickel plated in consideration of corrosion resistance.

In addition, the coaxial cable 4 pulled out from the building side
6 is a coaxial cable installation groove 21a of the antenna support column 12A as shown in FIGS. 2 and 3A, etc.
It is partially buried in the groove 21b of the groove 21b which faces downward in the installed state and is mounted along the groove 21b. At the location of the latching mechanism 22, the coaxial cable 46 is attached to a latching guide protrusion 25 as shown in FIGS. 3A and 4.
It goes around the top side and is latched in a curved state in an inverted U shape, and at the guide mechanism 23,
As shown in FIG. 5, it is fitted into the recess 27a of the rib 27 and guided so as not to shift.

Next, the structure of the lid attachment portion of the box portion 16 will be explained with reference to FIGS. 10 and 11.

Outer peripheral wall surface 3 of the rectangular frame-shaped peripheral side wall 31 of the box portion 16
1a, over the entire circumference at a position facing the opening 33,
A groove portion 34, which is the essential part of the present invention, is formed. A lid engaging protrusion 35 is formed on the opening 33 side of the groove 34 . The height of this protrusion 35 is one step lower than the outer peripheral wall surface 31a. Here, groove part 3
The width W and depth D of 4 are large, and the groove 34 functions sufficiently as a rain gutter, as will be described later, and is convenient because it is easy to mold with a mold.
Here, the groove portion 34 is formed incidentally by forming the protrusion 35, and may be narrow and shallow if only for attaching the lid 17.
In the present invention, this groove portion 34 is intentionally made wide and deep.

As shown in FIGS. 10A, B, and C, the lid 17 is
It has a shape consisting of a concave flat plate portion 17a, a frame portion 17b with an L-shaped cross section surrounding the concave plate portion 17a, and a protrusion 17c.
This lid 17 is made of soft resin, and by simply pushing the lid 17, the protrusion 17c climbs over the protrusion 35 and forms the groove 34, as shown in FIGS. 11 and 12.
The concave flat plate portion 17a partially fits into the opening 33 and covers it. Therefore, the lid 17 can be easily installed without using installation screws, and in a state where it cannot be easily removed. Further, the frame portion 17b is in close contact with the surface of the protrusion 35 and the opening-side end surface 16b of the circumferential wall 31 without any gaps, and the opening 33 side of the box portion 16 is made well liquid-tight without using a packing.

Next, the influence of rainwater on the power feeding section of the dipole antenna installed as described above will be explained.

When the antenna is installed, the box part 16 is in the attitude shown in FIG. 11, with the surface _16a1 facing upward and the lid 17 facing the side. The rain wets the surface 16a ₁ and further accumulates in a thin layer on the surface 16a ₁ . 60 indicates accumulated rainwater. Before reaching the lid 17, this rainwater 60 flows into a groove 34 formed along the lid 17 as shown in FIG. It flows down from both sides of the top. Therefore, rainwater does not reach the attachment part of the lid 17, and therefore does not seep into the inside of the box part 16 through this attachment part. Here, since the groove part 34 is wide, the water level of rainwater in the groove part 34 is difficult to rise.Furthermore, since the groove part 34 is formed deep, when rain falls heavily, rainwater flows into the groove part 34. Even when the water level increases, the water level in the groove 34 remains at the level of the protrusion 17c.
Even if the mounting part of the lid 17 is in a state where capillary action can occur,
Rainwater does not seep into the box part 16 through the attachment part of the lid.

Further, the frame portion 17b of the lid 17 covers the attachment portion of the lid 17, so that rainwater does not directly hit the attachment portion.

Therefore, rainwater passes through the attachment part of the lid 17 and enters the box part 1.
6, and the power supply part is housed in a completely waterproof structure, so there will be no rust or loss of power supply due to rainwater seepage, and the power supply will remain high for a long period of time. Reliability can be maintained.

Furthermore, since the groove portion 34 is formed over the entire circumference of the peripheral side wall 31, the antenna can be centered around the axis of the main body.
Even when installed with the box part 16 rotated by 180 degrees, a groove exists on the top side of the box part 16, and this groove functions similarly as a rain gutter.

In addition, the above-mentioned groove part 34 can also have a structure in which the upper center in the longitudinal direction is raised and both ends are lowered.
In this case, the rainwater that has flowed into the groove portion 34 will quickly flow down, which is convenient.

Further, the coaxial cable 46 is installed along the support column 12A as shown in FIG. 3A. In particular, the coaxial cable 46 is sloped between the latching mechanism 22 and the guide mechanism 23 so that the box portion 16 side is facing downward, and rainwater 61 can damage the coaxial cable 46 as shown by the thick broken line in FIG. 3A. It then tries to flow into the box part 16. However, since the coaxial cable 46 is guided by the guide mechanism 23 and is inclined upward at the part where it enters the box part 16 from this point, rainwater does not flow in this part, that is, the box part 16
It does not flow into the interior, but drips at the guide mechanism 23. Therefore, the guide mechanism 23
is installed in a downwardly curved manner on the front side of the box part 16, so that the rainwater can be transmitted through the coaxial cable 46 to the box part 16.
It has the function of preventing intrusion into the interior.
In addition, rainwater is drained from the partition wall 32 of the upper groove 21a.
a and the ribs 26, but since rainwater flows out through the recess 26a before this area becomes full, it does not flow out to the top side of the box 16, which improves the waterproofing of the power supply section. It's convenient.

As mentioned above, the antenna support column according to the present invention forms a box portion that houses the power feeding section and has a lid attached thereto, and the outer wall surface facing the lid attachment portion of the peripheral side wall of this box portion functions as a rain gutter. Because the structure has wide grooves, rainwater will flow down through the grooves without collecting on the top surface of the box, and since the grooves are wide, there will be no problem in the grooves even in the event of heavy rain. The water level of rainwater becomes difficult to rise and does not overflow to the lid side, thereby reliably preventing rainwater from seeping into the box part through the attachment part of the lid. Further, since the coaxial cable introduced into the power supply section is guided by the coaxial cable guide mechanism so as to extend diagonally upward, it is possible to prevent water from entering the power supply section through the coaxial cable. As a result, a highly waterproof structure can be achieved, and the power supply section can be well protected from rainwater for a long period of time.

[Brief explanation of the drawing]

Figure 1 shows an example of a conventional antenna, Figure 2 shows an example of a conventional antenna.
The figure is a perspective view of the antenna support column in the installed state, which is one embodiment of the present invention, and Figures A, B, and C are respectively the second and third antenna support columns.
The figure shows the front view, bottom view, and side view of the antenna support column.
Figures 4, 5, and 6 are cross-sectional views taken along lines -, -, and - in Figures 3A and B, respectively, and Figures 7 and 8 are views of the structure stored in the box, respectively. A perspective view and a front view showing the structure of the power feeding section, FIG. 9 is a diagram showing the state of the coaxial cable being wired into the box, and FIGS. 10A and B are an example of the lid attached to the box. The plan view and front view of , Figure 10 C is A middle C of the same figure.
11 is a sectional view taken along the line XI-XI in FIG. 3A with the lid attached to the box part, and FIG. 12 is a sectional view taken along the line XI-XI in FIG. FIG. 3 is an enlarged view of the vicinity. 10...Dipole antenna, 12A, 12
B, 12C...Antenna support pillar, 13a to 13d
... Antenna element, 14 ... Main body, 15
...Mounting leg part, 16...Box part, 17...Cover (lid), 17a...Concave flat plate part, 17b...Frame part,
17c...Protrusion, 18...Central horizontal wall, 19,2
0...Vertical wall, 21a, 21b...Groove for installing coaxial cable, 22...Coaxial cable latching mechanism, 2
3... Coaxial cable guide mechanism, 25... Locking guide protrusion, 26, 27... Rib, 30... Bottom plate portion, 3
1... Circumferential wall, 32a, 32b... Thin partition wall, 33... Opening, 34... Groove, 35... Projection, 40, 41... Bolt, 42, 43... Nut, 44, 45... Terminal, 46...Coaxial cable, 46a...Inner conductor, 46b...Outer conductor, 47...Special screw, 48...Bracket, 4
9...screw, 50...opening, 60, 61...rainwater.

Claims (1)

[Claims for Utility Model Registration] A main body, a mounting leg on the base side of the main body,
The main body has a box part with an opening on the side at the tip side to house the power feeding part which is the connection part with the feeding cable, and the rod-shaped antenna is supported vertically at the tip side and attached to the building in a horizontal state. An antenna support column to be fixed, wherein the main body has an H-shaped vertical cross section, and has grooves on the upper and lower surfaces for mounting the power supply cable on which the power supply cable is mounted; A coaxial cable latching mechanism for latching the power supply cable in the center; and a power supply cable guide mechanism for bending and guiding the power supply cable guided into the box part from the power supply cable latching mechanism to a portion closer to the box part. and a lid is attached to the box portion to cover the opening on the side surface, and a portion of the peripheral side wall of the box portion facing the opening functions as a rain gutter over the entire circumference. An antenna support column with a wide groove formed therein.