CN205900793U - Antenna system with embedded control device - Google Patents

Abstract

The utility model discloses an antenna system with embedded control device who reveas, including the cover body, control module and drive mechanism, the embedded setting of control module is provided with a coupling mechanism on control module's the motor output shaft on the bottom end cover of the cover body, be provided with the 2nd coupling mechanism on drive mechanism's the screw rod, and a coupling mechanism and the 2nd coupling mechanism pass through the drive mechanism 0 direction and connect, the utility model discloses embedded connection need not to open the cover body during installation, direct plug, and the installation is maintained conveniently, has realized through direction setting that some contact guidance replaces the face to connect for the embedded control module aim at to be connected conveniently, accurate, avoids the plug card phenomenon of dying, has solved the assembling deviation problem, controls more accurately, and it is more convenient to safeguard.

Description

A kind of antenna system with device for embedded control

Technical field

This utility model is related to antenna for base station communication technical field, especially relates to a kind of there is device for embedded control Antenna system.

Background technology

With the fast development of mobile communication technology, antenna for base station is used widely in portable antenna field, especially Electrical tilt antenna, is covered by changing the beam optimization signal of electrical tilt antenna, the control device of electrical tilt antenna passes through motor and transmission Device connects, and drives actuating device and phase shifiting device to move, and then changes the angular direction that has a down dip, and optimizes and covers signal.

In practice, the difference with cover body external position in cover body is arranged on according to control device, antenna for base station can be control Device processed is external and the built-in two kinds of patterns of control device, and the electrical tilt antenna (especially multiband electrical tilt antenna) of embedding structure is relatively Have a clear superiority in the aspect of performance such as cover body sole arrangement and control device installation in external structure, but built-in in prior art Control device needs when safeguarding to open cover body, difficult in maintenance.

In order to solve the above problems, some antenna producers devise a kind of control device (ret, the remote of plug type Electrical tilt), that is, pass through to arrange socket in cover body bottom, control device module is inserted into socket, and extends to cover In vivo, then fix, it is convenient that this structure makes control device safeguard, but in this structure motor and drive mechanism be aligned, The aspect such as connect and become new technical problem, easily occur stand-off error is installed, affect control accuracy, or even after connecting when long Between work after produce and extract difficulty, the problems such as stuck occur, therefore, problem in terms of maintenance for the existing plug-in control device There is no basic solve problem.

Utility model content

The purpose of this utility model is to overcome the defect of prior art, provides one kind to have guiding and connects, simple to operate, A kind of plug easily antenna system with device for embedded control.

For achieving the above object, the utility model proposes following technical scheme: a kind of sky with device for embedded control Linear system is united, and described antenna system includes,

Cover body, described cover body includes bottom end cover, and described bottom end cover is provided with opening；

Control module, described control module is embedded at described opening, and described control module includes integrated motor And control unit, the output shaft of described motor is provided with the first bindiny mechanism；And

Drive mechanism, described drive mechanism includes screw rod, and described screw rod is provided with the second bindiny mechanism；

Described first bindiny mechanism and described second bindiny mechanism are by being arranged on described first bindiny mechanism or described Guider guiding in two bindiny mechanisms is connected.

Preferably, described first bindiny mechanism is cylindric, and on its circumferencial direction, uniform intervals protrude a plurality of first Tooth bar, described guider is protruded by least one first tooth bar and is formed, and described second bindiny mechanism includes axle sleeve, described axle sleeve Interior setting is fluted, and described groove inner wall arranges a plurality of second tooth bars in its circumferencial direction uniform intervals.

Preferably, form first gap between described each two first tooth bar, between described each two second tooth bar Form second gap, when described first bindiny mechanism and the second bindiny mechanism connect, described first tooth bar is inserted in described Second gap, described second tooth bar is inserted into described first gap.

Preferably, described first tooth bar and/or the second tooth bar are formed with guiding surface.

Preferably, described guider is formed with guiding surface.

Preferably, described screw rod is formed with step in the one end near described second bindiny mechanism, described second connection machine Structure includes axle sleeve, and described axle sleeve passes through the First terrace of described step, and forms work and between the second step face of described step Dynamic gap.

Preferably, described second bindiny mechanism also includes screw, and described axle sleeve is fixed by screws on described screw rod.

Preferably, it is provided with guide slide in described cover body, described control module extends to institute along described guide slide State inside cover body, and make described first bindiny mechanism and the second bindiny mechanism be aligned.

Preferably, described control module is formed with pilot hole near one end of described screw rod, and described drive mechanism is formed There is guide post, described guide post is coordinated with described pilot hole guiding.

Preferably, described control module is provided with handle, after described control module embeds, described handle is in described cover body The outside of bottom end cover.

This utility model makes embedded type control module be aligned easy to connect, accurate by guiding setting, it is to avoid plug-in card Dead phenomenon, solving the problems, such as assembling deviation so that controlling more accurate, safeguarding convenient.

Brief description

Fig. 1 is using antenna schematic diagram of the present utility model；

Fig. 2 is this utility model control module and drive mechanism connection diagram；

Fig. 3 is first bindiny mechanism's scheme of installation in this utility model；

Fig. 4 is first bindiny mechanism's structure chart in this utility model；

Fig. 5 is screw rod and second bindiny mechanism's schematic diagram；

Fig. 6 is screw rod and second bindiny mechanism's assembling schematic diagram；

Fig. 7 is the structural representation of axle sleeve；

Fig. 8 is the sectional view of Fig. 7.

Reference: 1, cover body, 11, bottom end cover, 12, opening, 2, control module, 21, motor, 210, outfan, 22, control Unit processed, 24, fixed plate, 25, pilot hole, 3, drive mechanism, 30, guide post, 31, screw rod, 32, step, 321, first step Face, 322, second step face, the 4, first bindiny mechanism, 40, flat position hole, the 41, first tooth bar, the 411, first guiding surface, 42, One gap, 5, guider, the 6, second bindiny mechanism, 61, axle sleeve, 610, installing hole, 611, groove, the 612, second tooth bar, 613rd, the second gap, the 614, second guiding surface, 62, screw, 63, pad, 64, friction plate, 7, free gap, 8, guiding slides Road, 9, handle.

Specific embodiment

Below in conjunction with accompanying drawing of the present utility model, the technical scheme of this utility model embodiment is carried out clear, complete Description.

As depicted in figs. 1 and 2, a kind of antenna system with device for embedded control disclosed in this utility model, this Utility model antenna system includes cover body 1, control module 2 and drive mechanism 3, the phase shifiting device of described drive mechanism 3 and antenna It is arranged in cover body 1, the bottom end cover 11 of described cover body 1 is formed with opening 12, described control module 2 includes concentrating the electricity of one Machine 21 and control unit 22, are fixedly installed guide slide 8, described control module 2 is along described guiding in described antenna house body Slideway 8 extends to inside described cover body 1, and whole embedded unit can (be included controlling mould after embedding by control module by screw Block) it is fixed on the bottom end cover 11 of cover body so that being embedded in described opening 12 of described control module 2 plug type, base station Controller drives described drive mechanism 3 and described phase shifiting device to move by described control module 2, realizes lower decline angle and adjusts, Because control unit realizes embedded connection in this utility model, cover body during installation, need not be opened, directly plug, maintenance side is installed Just.

Specifically, as shown in figure 3, described control module 2 includes motor 21 and the control unit 22 concentrating one, in control Unit processed substantially has fixed plate 24 away from one end of described motor, and fixed plate 24 is provided with screw, and described control module 2 is inserted It is fixed on bottom end cover 11 by described fixed plate 24 in described opening, the outfan 210 of described motor 21 is provided with One bindiny mechanism 4, for connecting described drive mechanism 3, near described motor output in the installation pedestal of described control module One end of axle is also formed with two pilot holes 25.

In conjunction with shown in Fig. 4, described first bindiny mechanism 4 is column structure, is provided with flat position hole 40, in the circle of cylinder in it In circumferential direction, uniform intervals form a plurality of first tooth bars 41, form the first gap 42 between each two the first tooth bar 41, each First guiding surface 411 is formed on the first tooth bar, specifically, described first guiding surface is formed at the both sides of the first tooth bar, First tooth bar is formed outwardly and attenuates as taper, Fig. 4 shows the embodiment of six the first tooth bars, but this utility model does not limit In six data.

As one of this utility model key character, one of this six first tooth bars stretch out and protrude from the face of cylinder Upper surface, form guider 5, described guider 5 upper end also forms the first guiding surface, constitute pyramidal structure.

As shown in Figure 5 and Figure 6, described drive mechanism 3 includes screw rod 31, and the motor 21 of described control module 2 is by described Screw rod 31 is connected with described drive mechanism 3, and specifically, described screw rod 31 is formed in the one end near described control module 2 There is step 32, step 32 includes the First terrace 321 of flat position column and second step face 322 normal thereto, described screw rod On 31, the one end near described control module 2 is provided with the second bindiny mechanism 6, and described first bindiny mechanism 4 is connected machine with second Pass through guider 5 grafting in structure 6 connection procedure.

Described second bindiny mechanism 6 includes axle sleeve 61, screw 62, pad 63 and friction plate 64, and described screw sequentially passes through Described pad 63, axle sleeve 61 and friction plate 64, the second bindiny mechanism 6 is fixed on screw rod 31.

As shown in Figure 7 and Figure 8, described axle sleeve 61 is column structure, and described axle sleeve 61 is formed with peace near one end of screw rod Dress hole 610, setting fluted 611 in described axle sleeve 61, uniform intervals are provided with plural number to described groove inner wall in a circumferential direction Individual second tooth bar 612, forms the second gap 613 between each two second tooth bar, in this utility model, each second tooth bar 612 On be again provided with the second guiding surface 614, in order to coordinate the guide effect of the first bindiny mechanism, described second guiding surface It is formed at the both sides of the second tooth bar so that the second tooth bar is formed outwardly attenuates as taper, Fig. 6 shows the reality of six the second blocks Apply example, but this utility model is also not necessarily limited to six data.

When the insertion of above-mentioned bindiny mechanism connects, a plurality of first tooth bars 41 of the first bindiny mechanism 4 are inserted respectively into second In a plurality of second gaps 613 of bindiny mechanism 6, a plurality of second tooth bars 612 of described second bindiny mechanism 6 are respectively inserted into In corresponding first gap 42, realize the first bindiny mechanism and be equipped with described second bindiny mechanism, and filled by guiding Put guiding and the setting of multiple guiding surfaces, reach guiding cooperation, plug convenient effect.

As shown in Figure 5 and Figure 6, described axle sleeve 61 is set in the step 32 of described screw rod 31 by the installing hole 610 of flat position On First terrace 321 outside so that axle sleeve cannot rotate on screw rod, described screw 62 passes through the groove 611 of axle sleeve, and By pad 63, described axle sleeve 61 is fixed on screw rod 31, in order that axle sleeve 61 can have in axially and radially (or circumference) Certain mobile space, after fixing, described axle sleeve forms a free gap with the second step face 322 of the step of described screw rod 31 7 (as shown in Figure 5), described friction plate 64 is arranged in described first free gap 7, so, in control module and drive mechanism During grafting, even if off normal in the first bindiny mechanism and the second bindiny mechanism, because axle sleeve can have certain skew in circumference Space is so that the first bindiny mechanism can insert in the second bindiny mechanism easily exactly very much.

In the present embodiment, described axle sleeve can also be integrally disposed upon on screw rod, realizes guiding plug.

As shown in Fig. 2 the one end near described control module 2 is additionally provided with two guide posts 30 on described drive mechanism 3, Two guide posts are arranged on the both sides of axle sleeve, and described guide post 30 is coordinated with the pilot hole 25 of described control module, plays insertion Guide effect.

When inserting described control module, described control module 2 extends to inside described cover body 1 along described guide slide 8, And after so that described control module is put under along described guide slide, described first bindiny mechanism 4 and the second bindiny mechanism 6 pass through Guider 5 is directly aligned, and control module by screw, control module can be fixed on the bottom end cover 11 of cover body after embedding.

Preferably, as depicted in figs. 1 and 2, described control module is additionally provided with handle 9, described control module 2 embeds Afterwards, described handle 9, in the outside of described cover body lower end lid 11, can be extracted by handle when so pulling out control module, operation is more Plus it is convenient.

Above-mentioned is this utility model preferred embodiment, is with first embodiment difference as optional second embodiment, Described guider may also be arranged in the second bindiny mechanism, and that is, guider is outside by the second tooth bar in the second bindiny mechanism Extend and formed, the first bindiny mechanism arranges or is not provided with guider, other structures are consistent, equally can realize guiding and insert Pull out.

As 3rd embodiment of the present utility model, it is, guider is by the first tooth bar with above-described embodiment difference The first guiding surface and/or the second tooth bar on the second guiding surface formed, be not provided with prominent guider, also enable Guiding linkage function, other structures are consistent.

As fourth embodiment of the present utility model, it is with above-described embodiment difference, the first bindiny mechanism and second is even Connection mechanism exchanges, and that is, the first bindiny mechanism is set to axle sleeve structure and is set on motor output shaft, and the second bindiny mechanism is boss Structure is set on screw rod, realizes plug, and other structures are consistent.

The embedded ret of this utility model achieves a contact guiding replacement face connection by arranging guider, is easy to insert Pull out, easy to maintenance, it is to avoid to plug stuck phenomenon, and fundamentally solve the installation of embedded ret, maintenance issues.

Technology contents of the present utility model and technical characteristic have revealed that as above, but those of ordinary skill in the art still may be used A variety of replacements without departing substantially from this utility model spirit and modification can be made based on teaching of the present utility model and announcement, therefore, this Utility model protection scope should be not limited to the content disclosed in embodiment, and should include various without departing substantially from replacement of the present utility model And modify, and covered by present patent application claim.

Claims (10)

1. a kind of antenna system with device for embedded control, described antenna system includes,

Cover body, described cover body includes bottom end cover, and described bottom end cover is provided with opening；

Control module, described control module is embedded at described opening, and described control module includes integrated motor and control Unit processed, the output shaft of described motor is provided with the first bindiny mechanism；And

Drive mechanism, described drive mechanism includes screw rod, and described screw rod is provided with the second bindiny mechanism；

Described first bindiny mechanism and described second bindiny mechanism are by being arranged on described first bindiny mechanism or described second even Guider guiding on connection mechanism is connected.

2. the antenna system with device for embedded control according to claim 1 is it is characterised in that described first connects Mechanism is cylindric, and on its circumferencial direction, uniform intervals protrude a plurality of first tooth bars, and described guider is by least one First tooth bar protrudes and is formed, and described second bindiny mechanism includes axle sleeve, and in described axle sleeve, setting is fluted, on described groove inner wall In its circumferencial direction uniform intervals, a plurality of second tooth bars are set.

3. the antenna system with device for embedded control according to claim 2 is it is characterised in that described each two Form first gap between one tooth bar, form second gap between described each two second tooth bar, described first even When connection mechanism and the second bindiny mechanism connect, described first tooth bar is inserted in described second gap, and described second tooth bar is inserted into Described first gap.

4. the antenna system with device for embedded control according to claim 2 is it is characterised in that described first tooth bar And/or second be formed with guiding surface on tooth bar.

5. the antenna system with device for embedded control according to claim 1 and 2 is it is characterised in that described guiding Guiding surface is formed with device.

6. the antenna system with device for embedded control according to claim 1 and 2 is it is characterised in that described screw rod It is formed with step in the one end near described second bindiny mechanism, described second bindiny mechanism includes axle sleeve, and described axle sleeve passes through The First terrace of described step, and form free gap and between the second step face of described step.

7. the antenna system with device for embedded control according to claim 6 is it is characterised in that described second connects Mechanism also includes screw, and described axle sleeve is fixed by screws on described screw rod.

8. the antenna system with device for embedded control according to claim 1 is it is characterised in that set in described cover body It is equipped with guide slide, described control module extends to inside described cover body along described guide slide, and make described first even Connection mechanism and the second bindiny mechanism be aligned.

9. the antenna system with device for embedded control according to claim 1 is it is characterised in that described control module One end near described screw rod is formed with pilot hole, described drive mechanism is formed with guide post, described guide post is led with described Guide cooperation to hole.

10. the antenna system with device for embedded control according to claim 1 is it is characterised in that described control mould It is provided with handle, after described control module embeds, described handle is in the outside of described cover body lower end lid on block.