HOLDER WITH COUNTERWEIGHT STRUCTURE AND FOR MOUNTING ON ANTENNA

Abstract

A holder with a counterweight structure and for mounting on an antenna comprises a fixing seat, a rotating seat, a rotor, two plug caps, a connecting piece and a weight part; wherein the fixing seat is formed with a rotor mounting portion; the rotor mounting portion includes two rotor mounting holes extending in a rotational axis direction at both ends thereof, a cavity into which a counterweight is placed, and a counterweight cover for covering a cavity opening; the rotor mounting hole is formed with a hexagonal connecting post disposed at an inner bottom surface thereof and extending in the rotational axis direction; the hexagonal connecting post has an annular limiting boss; wherein the rotating seat includes two rotor sleeves disposed symmetrically with each other; the rotor mounting portion coincides with the axis of rotation of the two rotor sleeves and is connected therebetween.

Claims

1. A holder with a counterweight structure and for mounting on an antenna comprising a fixing seat (1), a rotating seat (2), a rotor (3), two plug caps (4), a connecting piece (5) and a weight part (6); wherein the fixing seat (1) is formed with a rotor mounting portion (11); the rotor mounting portion (11) includes two rotor mounting holes (111) extending in a rotational axis direction at both ends thereof a cavity into which a counterweight is placed, and a counterweight cover for covering a cavity opening; the rotor mounting hole (111) is formed with a hexagonal connecting post (112) disposed at an inner bottom surface thereof and extending in the rotational axis direction; the hexagonal connecting post (112) has an annular limiting boss; wherein the rotating seat (2) includes two rotor sleeves (21) disposed symmetrically with each other; the rotor mounting portion (11) coincides with the axis of rotation of the two rotor sleeves (21) and is connected therebetween; the each rotor sleeve (21) has a plurality of annularly distributed internal teeth (211) disposed on the inner side thereof; the rotating seat (2) is formed with a clamping structure for engaging with a slot on the weight part (6); wherein the rotor (3) is opened with a connecting groove (31) disposed at one end thereof and connected with the hexagonal connecting post (112), and another end thereof has four circumferentially distributed notches so as to form four rotating rods (32); the each rotating rod (32) includes external teeth (33) meshing with internal teeth (211) disposed on the inner side of the rotor sleeve (21); wherein the two plug caps (4) cover outer sides of the two rotor sleeves (21) respectively, and an outer side of one end of the plug cap (4) is engaged with an inner side of the rotor sleeve (21).

2. The holder with the counterweight structure and for mounting on the antenna according to claim 1, wherein the rotating seat (2) includes at least one mounting hole (22).

3. The holder with the counterweight structure and for mounting on the antenna according to claim 1, wherein the weight part (6) includes a weight block disposed therein.

4. The holder with the counterweight structure and for mounting on the antenna according to claim 1, wherein the length of the fixing seat (1) is 800˜900 mm.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is a schematic structural view of a holder according to the present invention;

[0010] FIG. 2 is an exploded view of the holder;

[0011] FIG. 3 is a side view of the holder without plug caps according to the present invention;

[0012] FIG. 4 is a partial enlarged view of A in FIG. 3;

[0013] FIG. 5 is a side view of a fixing seat of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0014] The present invention will be further described below in combination with specific embodiments.

[0015] Referring to FIG. 1 to FIG. 5, in this embodiment, a holder with a counterweight structure and for mounting on an antenna comprises a fixing seat (1), a rotating seat (2), a rotor (3), two plug caps (4), a connecting piece (5) and a weight part (6). The length of the fixing seat (1) is 800˜900 mm, so that the hanging seat is suitable for a large-sized antenna module. The holder is a plastic parts. The fixing seat (1) is formed with a rotor mounting portion (11). The rotor mounting portion (11) has two rotor mounting holes (111) extending in a rotational axis direction at both ends thereof, a cavity into which a counterweight is placed, and a counterweight cover for covering a cavity opening. Secondly, the rotor mounting hole (111) is internally deplasticized to prevent the occurrence of shrinkage; the rotor mounting hole (111) is formed with a hexagonal connecting post (112) disposed at an inner bottom surface thereof and extending in the rotational axis direction; the hexagonal connecting post (112) has an annular limiting boss for increasing the strength thereof. The fixing seat (1) has a through hole for allowing the connecting piece (5) to pass therethrough and connect the antenna main body, so that the antenna module can be firmly connected with the fixing seat (1) in this way. The rotating seat (2) includes two rotor sleeves (21). The rotor mounting portion (11) coincides with the axis of rotation of the two rotor sleeves (21) and is connected therebetween. The each rotor sleeve (21) has a plurality of annularly distributed internal teeth (211) disposed on the inner side thereof; the rotating seat (2) is formed with a clamping structure for engaging with a slot on the weight part (6); wherein, in order to prevent the weight part (6) from being installed in the reverse direction, a positioning block is provided on the clamping structure; by providing the weight part (6), the stability of the rotating seat (2) is enhanced. In addition, the rotating seat (2) includes two mounting holes (22), by which the the rotating seat (2) can be attached to various positions. The two plug caps (4) cover outer sides of the two rotor sleeves (21) respectively, and an outer side of one end of the plug cap (4) is matched with an inner side of the rotor sleeve (21); wherein the plug cap (4) includes a ring of stiffener disposed on the outer side thereof; the stiffener and the rotor sleeve (21) are engaged together in an interference fitted connection, so that the plug cap (4) can be more tightly covered on the rotor sleeve (21). The rotor (3) is opened with a connecting groove (31) disposed at one end thereof and connected with the hexagonal connecting post (112), and another end thereof has four circumferentially distributed notches so as to form four rotating rods (32), wherein each rotating rod (32) includes external teeth (33) meshing with internal teeth (211) disposed on the inner side of the rotor sleeve (21). The fixing seat (1) and the rotating seat (2) are connected by both ends of the rotor (3) respectively engaging with the rotor mounting holes (111) and the rotor sleeve (21). When the fixing seat (1) is rotated, the fixing seat (1) drives the rotor (3) to rotate through the hexagonal connecting post (112), and the four rotating rods (32) at the other end of the rotor (3) are elastically deformed under the action of the torque, so that the external teeth (33) jump into internal slots of the other internal teeth (211) until the proper position is reached and the rotation of the fixing seat (1) is stopped, the external teeth (33) and the internal teeth (211) form a self-locking state, thereby completing the position adjustment. Through the adjustment in the above manner, the adjustment of the holder is simpler and faster, and the stability is increased. In addition, silicone rubber is placed in contact with the antenna module to achieve anti-slip and anti-wear effects.

[0016] The above only describes some exemplary embodiments of the present invention. Those having ordinary skills in the art may also make many modifications and improvements without departing from the conception of the invention, which shall all fall within the protection scope of the invention.