WO2011078416A1

WO2011078416A1 - Antenna stand with improved stability and workability

Info

Publication number: WO2011078416A1
Application number: PCT/KR2009/007653
Authority: WO
Inventors: 김윤식
Original assignee: 성호티에스(주)
Priority date: 2009-12-22
Filing date: 2009-12-22
Publication date: 2011-06-30

Abstract

The present invention relates to an antenna stand with improved stability and workability, which can be combined in an assembling type for easy transport and installation in order to support an antenna without punching work that may damage the stability of a building when installing the antenna on the rooftop or the like of the building, wherein said assembling operation is simply performed and the antenna can stably be supported without much regard to slight differences of the bottom state on the rooftop or the like of the building. Thus, the antenna stand comprises: a base on which an antenna support is provided; a plurality of wing members which are stacked on each side of the base; and a coupling means which mutually combines the base with the plurality of stacked wing members. In this case, a concave groove is formed on one side of the wing member, and a convex protrusion which is to be inserted into the concave groove of the adjacent wing members is formed on the other side, wherein when the wing members are stacked, the concave groove and the convex protrusion are formed in a long oval shape in order to obtain a moving space between the wing members, the size of the convex protrusion is smaller than that of the concave groove, and the concave groove and the convex protrusion are arranged in parallel in a vertical direction of the wing members.

Description

Antenna stand with improved stability and workability

The present invention relates to a pedestal for supporting a communication antenna that is installed outdoors, in particular on the roof of a high-rise building, more specifically, does not require a perforation operation to harm the stability of the building to install the antenna on the roof of the building, and is easy to transport and install The present invention relates to an antenna pedestal coupled to support the antenna, but the assembly is easy to assemble and improved stability and workability that can stably support the antenna without being greatly affected by the minute differences of the ground conditions such as the roof of the building.

As the industry develops, the demand for wireless communication continues to increase, and as there are more obstacles to radio signals such as high-rise buildings, communication antennas have been installed throughout the city center for smooth wireless communication.

As such, the antenna installed in the city center is usually located at a high place such as a roof of a building. In the past, it was common to fix the antenna directly to a building roof with bolts. At this time, the building is perforated to connect the bolts, and the perforated holes may deteriorate the stability of the building and may cause water to penetrate the building.

In accordance with this problem, in order to install an antenna without performing a drilling operation in a building, a pedestal for supporting an antenna is disclosed as disclosed in JP 10-2007-0034410 (2007.03.28), `` Transceiver concealed communication antenna. '' It is installed on the roof of the building first, and then the antenna is installed on the pedestal.

The pedestal, which is not fixed separately to the building, should stably support the antenna and have sufficient weight so that the antenna does not fall or shake due to wind, etc., and should be in sufficient contact with the floor (roof). Thus, the conventional pedestal is heavy and bulky, requires a lot of labor and high cost to transport to the roof of the building.

Also, Utility Model Registration No. 20-0439763 (Apr. 25, 2008), `` Antenna fixed block '' and Patent No. 10-0894999 (2009.04.20), `` Antenna pedestal, '' have a pedestal for supporting an antenna.

The prior art also discloses a technique for coupling the antenna support to the assembly to be devised in the present invention,

Also, in the above-mentioned prior arts, including weight problems and portability problems, there is no disclosure in which a pedestal can be easily installed regardless of the smoothness of the floor surface such as a rooftop. The configuration introduced in the present invention to stably support the configuration or the antenna introduced in the present invention to improve the performance has not been disclosed at all, and also has a limit in stability and workability.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a pedestal that is easy to carry the pedestal, easy to install, low cost and stable support of the antenna.

In particular, it is an object of the present invention to provide an antenna stand that is stable and can be easily installed by an operator, regardless of the degree of smoothness of the floor on which the antenna stand is installed.

The antenna pedestal of the present invention for achieving the above object,

Base where the antenna post is installed:

A plurality of wing members stacked on each side of the base: And

An antenna support comprising: a coupling means for coupling the plurality of wing members and the base stacked together;

A concave groove is formed on one surface of the wing member, and a convex protrusion for inserting into a concave groove of an adjacent wing member is formed on the other surface thereof.

In order to secure the flow space between the wing members when the wing members are stacked

The concave groove and the convex protrusion are formed in a long oval shape in the longitudinal direction,

The size of the convex protrusion is formed smaller than the size of the concave groove,

The concave groove and the convex protrusion are characterized by being aligned parallel to the longitudinal direction of the wing member.

In addition, the coupling means of the present invention comprises a plurality of laminated wing member and the anchor bolt passing through the base and the nut tightening both sides of the through anchor bolt,

The wing member is formed with a through hole for penetrating the anchor bolt,

The through-hole is characterized in that the long elliptical shape in the longitudinal direction to secure the flow space of the inserted anchor bolt.

In addition, the wing member located at the outermost portion of the antenna support of the present invention is further provided with a fastening plate,

The tightening plate is composed of a fastening surface for fastening with the wing member, and a connecting portion formed bent from the fastening surface,

The connection portion is characterized in that the angle conversion support plate is coupled to support the outermost wing member and the antenna support.

Furthermore, a space portion for accommodating the weight member is formed in the wing member of the present invention, and one side is provided with opening and closing means for opening and closing the space portion.

The opening and closing means

An opening formed in a rectangular shape on one surface of the wing member,

A sliding rod formed inside the opening;

Technical features of the opening and closing plate for opening and closing the opening along the sliding rod.

The present invention having the configuration as described above has an effect that the workability can be improved since the coupling between the components assembled without being largely dependent on the smooth state of the bottom surface.

In addition, a separate support configuration for connecting the antenna prop and the antenna pedestal is adopted, and a configuration for easily connecting them is presented.

Adopting a non-slip member has the effect that it is possible to support a stable antenna.

In addition, in order to solve the weight problem while considering easy transportation, the wing member is formed to have a structure that can be opened and closed, but the opening and closing of the inside also introduced a configuration that can be easily opened and closed by the operator regardless of the contact between each wing member. I came to

Eventually, an antenna pedestal was obtained that could support the antenna stably and steadily without any damage to the building.

1 is a view showing a state in which an antenna is installed on the antenna pedestal of the present invention.

Figure 2 is an exploded perspective view showing a state before assembly of the antenna pedestal of the present invention, "A" enlarged in Figure 2 is a view showing the back of the wing member.

3 is a view showing a wing member of the present invention.

Figure 4 is a view showing a wing member of the present invention, a view showing the opening and closing means and the space portion of the wing member formed in the wing member.

Figure 5 is a cross-sectional view of the wing member is laminated in the present invention.

Explanation of symbols on the main parts of the drawings

1: antenna prop 2: bracket 3: mounting assembly

10: base 11: insertion hole 13: mounting hole 15: coupling hole 17: insertion hole

20: wing member 21: concave groove 22: convex protrusion 23: space

25: reinforcement 26: through hole 26a: through wall

30; Coupling means 31: anchor bolt 33: nut

40: opening and closing means 41: opening portion 42: sliding rod 43: opening and closing plate

50: tightening plate 51: fastening plate 53: connecting portion

60: angle conversion support plate 61: horizontal plate 62: vertical plate

70: non-slip member

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

As shown in FIGS. 1 and 2, the antenna pedestal of the present invention includes a base 10, a plurality of wing members 20 stacked on each side of the base, and a plurality of stacked wing members 20 and base 10. It comprises a coupling means 30 for coupling to each other.

More specifically, the base 10 is located in the center of the antenna pedestal and the sides are radially disposed, so that the wing member 20 is stacked on each side,

Since the coupling means to be described later to couple the wing member 20 to the base 10, the base is the shape of the bottom (upper surface), such as the hexagonal pillar, the octagonal pillar as shown in the drawings, the sides facing each other It is preferable that the symmetry of the polygon is made of.

And in order to install the antenna is formed in the center of the upper surface of the coupling hole 15 is coupled to the mounting hole 13 is inserted into the mounting of the antenna (1) and the bracket (2) for holding the support (1) is fixed There is,

On the side, a plurality of insertion holes 11 into which the convex protrusions 22 of the wing members 20 to be stacked and coupled are inserted, and insertion holes 17 into which the anchor bolts 31 of the coupling means to be described below are inserted are drilled.

In addition, the base 10 is preferably reduced in weight by making the interior empty space for easy transportation.

Next, the wing members 20 are laminated to each side of the base 10, but the wing members are laminated and coupled to each other to increase the convenience of assembly (lamination) by the male and female coupling and increase the bonding force.

That is, concave grooves 21 are formed on one surface of the wing member for male and female coupling between the wing members 20, and convex protrusions 22 for insertion into the concave grooves of adjacent wing members are laminated on the other surface. Formed

First, the convex protrusion of the first wing member is inserted into the insertion hole 11 of the base 10 and coupled, and the convex protrusion 22 of the second wing member is inserted into the concave groove 21 of the first wing member and coupled. Then, the convex protrusions of the respective wing members are inserted into the concave grooves of the wing members, which are laminated and coupled in the same manner as above, and the wing members are sequentially laminated.

In particular, as shown in Figure 3, the concave groove 21 and the convex protrusion 22 to take a long elliptical shape in the longitudinal direction, is aligned parallel to the longitudinal direction of the wing member 20.

In addition, the convex protrusion 22 may have the same shape as that of the concave groove 21, but smaller than the size of the concave groove 21.

The structural features of the concave groove 21 and the convex protrusion 22 as described above ensure that a certain flow space between the wing members is secured when the wing members 20 are stacked so that they can be coped with when the bottom surface is not flat. To do this.

Normally, when installing the antenna stand, the floor is arranged to be flat so that there is no foreign matter, but if there is an inconspicuous foreign matter or if there is a curvature of the floor that cannot be done by the operator's manual work, it is possible to adjust the wing members up and down. This is to make it possible to cope with these problems and to combine them stably while facilitating the work of laminating the wing members.

In addition, the wing member 20 has an empty space portion 23 formed therein to facilitate transportation, thereby reducing the weight, so that the wing member 20 has sufficient weight to stably support the antenna, so that it should not be moved or moved by wind or external impact. The space 23 is preferably filled with a weight member (not shown) such as sand or gravel.

In addition, to form an opening and closing means 40 for opening and closing the space 23 on one surface of the wing member,

A rectangular opening is formed on one surface of the wing member, and a sliding rod is formed inside the opening, and the opening and closing plate is moved along the sliding rod to open and close the opening 23.

That is, the opening and closing means 40 of the present invention comprises an opening 41 formed on one surface of the wing member, a sliding rod 42, and the opening and closing plate 43,

This is a configuration that can be simply formed without additional configuration on one side of the wing member is preferable since it is easy to insert the weight member while ensuring a wide contact area when the wing members are in contact with each other.

Next, as the coupling member 30 is fixed to the base member 10, the wing members 20 are laminated to each side of the base 10,

The anchor bolt 31 penetrates the plurality of wing members 20 and the base 10, and a nut 33 that tightens both sides of the penetrated anchor bolt 31 at the outermost wing member.

In particular, the wing member 20 is formed with a through hole 26 for penetrating the anchor bolt 31, the through hole 26 is an elliptical shape long in the vertical direction to secure the flow space of the inserted anchor bolt 31 It is desirable to take

Therefore, the through hole 26 is also a configuration for stably stacking the wing member on the non-smooth bottom surface like the concave groove and the convex protrusion will be referred to as the core configuration of the present invention.

In addition, in the base 10, the size of the insertion hole 17 into which the anchor bolt 31 is inserted may be larger than the diameter of the anchor bolt 31 to secure a fluidity space.

Next, the outermost wing member is further provided with a tightening plate 50 before the nut 33 is fastened to the anchor bolt 31. After the anchor bolt 31 is inserted, the nut 33 is coupled to the anchor bolt. Tightening the tightening plate 50 allows the wing members 20 to be more firmly laminated.

In addition, as shown in Figures 1 and 2, the fastening plate 50 is made of a fastening surface 51 to form a surface to be fastened to the wing member 20, and a connecting portion 53 formed bent from the fastening surface under,

The connecting portion 53 is coupled to the angle conversion support plate 60 to be described later to connect and support the outermost wing member and the antenna support (1), the antenna is more stably fixed to the antenna pedestal of the present invention.

More specifically, the bracket assembly (3) is mounted to the outside of the antenna support (1),

The angle conversion support plate 60 provides a contact surface with the connecting portion 53 of the tightening plate, the horizontal plate 61 is fastened to the connection portion, and the vertical plate 63 to provide a contact surface fastened to the bracket assembly 3. It consists of, the vertical plate 63 is bent from the side of the horizontal plate 61.

Next, when looking at the bottom of the wing member 20 of the present invention, in order to prevent the sliding to the bottom surface is provided with a non-slip member 70,

As shown in FIG. 3, this is to form a frictional force with the bottom surface and is formed in a plate shape having a plurality of uneven parts to be attached to the bottom surface of the wing member or integrally formed on the bottom surface.

In addition, looking at the interior of the space portion 23 of the wing member 20,

Although the inside was left empty in consideration of the ease of transport or the ease of storage thereafter, the reinforcement bar 25 was formed as an inner wall to consider the improvement in strength.

In addition, the through-hole 26 for penetrating the anchor bolt 31 formed in the wing member 20 also forms a through-wall 26a for the space separated from the space 23 in the wing member.

To facilitate the insertion of the anchor bolt, and then to solve the problem that the weight member is released to the outside when the weight member is added.

Of course, the reinforcing bar 25 is also formed in the through wall 26a to improve strength.

In the above description of the present invention has been described with respect to the antenna pedestal having a specific shape and structure with reference to the accompanying drawings, the present invention can be variously modified and changed by those skilled in the art, such variations and modifications are the scope of protection of the present invention Should be interpreted as belonging to.

Claims

Base where the antenna post is installed:

A plurality of wing members stacked on each side of the base: And

An antenna support comprising: a coupling means for coupling the plurality of wing members and the base stacked together;

A concave groove is formed on one surface of the wing member, and a convex protrusion for inserting into a concave groove of an adjacent wing member is formed on the other surface thereof.

In order to secure the flow space between the wing members when the wing members are stacked

The concave groove and the convex protrusion are formed in a long oval shape in the longitudinal direction,

The size of the convex protrusion is formed smaller than the size of the concave groove,

The concave groove and the convex protrusion are improved antenna work stability and workability, characterized in that parallel to the longitudinal direction of the wing member.
The method of claim 1,

The coupling means includes a plurality of laminated wing members and anchor bolts penetrating the base and nuts tightening both sides of the penetrated anchor bolts,

The wing member is formed with a through hole for penetrating the anchor bolt,

The through-hole is an antenna pedestal with improved stability and workability, characterized in that the longitudinal oval shape in order to secure the flow space of the inserted anchor bolt.
The method of claim 1,

Wing members located on the outermost side is provided with a tightening plate,

The tightening plate is composed of a fastening surface for fastening with the wing member, and a connecting portion formed bent from the fastening surface,

The connection portion is coupled to the angle conversion support plate antenna support for improved stability and workability, characterized in that for supporting the outermost wing member and the antenna support.
The method of claim 3, wherein

The angle conversion support plate is a horizontal plate which is fastened in contact with the connecting portion, and bent from the side of the horizontal plate formed of a vertical plate for fastening in contact with the bracket assembly installed on the outside of the antenna support stability and workability Enhanced antenna pedestal.
The method of claim 1,

The wing member is provided with a space for accommodating the weight member, one side is provided with opening and closing means for opening and closing the space,

The opening and closing means

An opening formed in a rectangular shape on one surface of the wing member,

A sliding rod formed inside the opening;

Antenna stand with improved stability and workability, characterized in that the opening and closing plate for opening and closing the opening along the sliding rod.
The antenna stand of claim 1, wherein the bottom surface of the wing member is provided with a non-slip member for preventing slipping.