CN209183781U - Boundling joint structure, array antenna and antenna system - Google Patents

Abstract

The utility model relates to a kind of boundling joint structure, array antenna and antenna systems, boundling joint structure includes mounting base and boundling connector, the mounting base is used to be installed on the backboard of antenna body or the antenna house back side of antenna body, the boundling connector is arranged in the mounting base, and the plane where the interface axis direction of the interface axis direction of the boundling connector boundling connector vertical or described with the positive normal direction of the backboard or the antenna house back side and the backboard or the antenna house back side is in the angle of θ, 0 ° of θ≤45 ° <.When the active equipment for being mounted on the antenna back side needs to establish connection with the antenna, bunched cable can be used to connect with the active equipment and boundling connector, it can effectively reduce the bending degree to bunched cable, the grafting operation difficulty of bunched cable and boundling connector and active equipment is reduced, while the length of bunched cable can also be shortened and reduce the loss of bunched cable.

Description

Boundling joint structure, array antenna and antenna system

Technical field

The utility model relates to antenna technical field, in particular to a kind of boundling joint structure, array antenna and aerial system System.

Background technique

Currently, active equipment and passive antenna mostly use greatly inside in 5G large scale array antenna routine implementation pattern Blindmate type interface connection feed, passive antenna are installed in active Radio module with module pattern, and antenna house is packaged in active set The standby upper AAU antenna for forming overall package, this packaged type split passive antenna can not with active equipment, work as active equipment Or passive antenna is unable to field maintenance or independent replacement, can only carry out integral replacing when breaking down, increase network operation at This.And the large scale array antenna of active equipment and passive antenna individual packages, using CA cable assembly is arranged on antenna back panel, Passive antenna is connect by CA cable assembly with active equipment, but even installation connects inconvenience for general CA cable assembly and active equipment, It will increase cable loss.

Utility model content

Based on this, a kind of boundling joint structure, array antenna and antenna system are provided, facilitates and realizes active equipment and passive Assembly and disassembly and replacement between antenna, and reduce cable loss.

Its technical solution is as follows:

A kind of boundling joint structure, including mounting base and boundling connector, the mounting base is for being installed on antenna body On the backboard or antenna house back side of antenna body, the boundling connector is arranged in the mounting base, and the boundling connector Interface axis direction it is vertical with the positive normal direction at the backboard or the antenna house back side, or

Plane where the interface axis direction and the backboard of the boundling connector or the antenna house back side is in the folder of θ Angle, 0 ° of θ≤45 ° <.

Boundling connector is arranged in the mounting base above-mentioned boundling joint structure, and mounting base is integrally pacified with boundling connector On the backboard of antenna or the antenna house back side, boundling connector can be made with inner antenna feeding network line by mounting base The interface axis direction of boundling connector is vertical with the positive normal direction of the backboard or the antenna house back side or near normal, works as peace When active equipment mounted in the antenna back side needs to establish connection with the antenna, bunched cable can be used and active set with described Standby and boundling connector connection, due to the interface axis direction of boundling connector and the backboard or the positive normal side at the antenna house back side It is in the folder of θ to the plane where the interface axis direction of the vertical or described boundling connector and the backboard or the antenna house back side Angle, 0 ° of θ≤45 ° < (the interface axis direction and the backboard of boundling connector or longitudinal slightly inclined at the antenna house back side, Make the interface axis direction of boundling connector is opposite with the interface axis direction of active equipment to have a small installing angle) it can effectively drop The low bending degree to bunched cable reduces the grafting operation difficulty of bunched cable and boundling connector and active equipment, while The length of bunched cable can be shortened and reduce the loss of bunched cable.

In one embodiment, the mounting base includes:

Pedestal, the pedestal are equipped with inner cavity；

First mounting portion, first mounting portion is set to the pedestal, and first mounting portion includes being used for the peace The the first installation end face and opened on first installation end face that dress seat is fixedly mounted with the backboard or the antenna house back side If the first mounting hole；

At least one second mounting portion, second mounting portion be set to the pedestal, and second mounting portion include with First installation end face is in install end face and in institute more than or equal to 45 ° and less than or equal to the second of 90 ° of angles The second mounting hole opened up on the second installation end face is stated, the boundling connector is assemblied on second installation end face, and described The interface of boundling connector is oppositely arranged with second mounting hole；

Second mounting hole, the inner cavity and first mounting hole are successively formed through to be connect with the boundling connector Connector feeder line first go out line passage.

In one embodiment, the boundling connector includes the connector portions and flange portion being connected,

The connector portions stretch out second mounting hole, and the flange portion is located in the inner cavity of the mounting base, the method Blue portion is connect with the second installation end face；

Alternatively,

The connector portions and flange portion are arranged on the outside of the mounting base, the flange portion and second installation end face Connection.

In one embodiment, the first waterproof grommet is equipped between the boundling connector and the mounting base.

In one embodiment, second mounting portion is two, relative spacing above and below two second mounting portions Setting or the setting of left and right adjacent spaces or opposite tilt interval setting up and down.

In one embodiment, the pedestal includes flange bottom wall, the first side wall, roof and second sidewall, and described One side wall, the roof and the second sidewall, which successively enclose to connect, is convexly equipped on the flange bottom wall and is formed the inner cavity, described First installation end face is provided by the flange bottom wall, and second installation end face is mentioned by the first side wall or the second sidewall For.

In one embodiment, the flange bottom wall includes the first surface and second surface being oppositely arranged, and described One installation end face is provided by the first surface, and the second surface is for positioning assembly calibration network plate, the calibration network It is connected between plate and the boundling connector by the connector feeder line.

A kind of array antenna, including antenna body and boundling joint structure described in any of the above embodiments, the antenna body Backboard on or antenna body the antenna house back side for installing active equipment, the boundling connector in the mounting base is used for and institute State active equipment electric connection.

Boundling connector is arranged in the mounting base above-mentioned array antenna, and mounting base and the integral installation of boundling connector exist On the backboard of the antenna body or antenna house back side of antenna body is arranged mounting base, makes the interface axis direction of boundling connector The interface axis direction and the back of the boundling connector vertical or described with the positive normal direction of the backboard or the antenna house back side Plane where plate or the antenna house back side is in the angle of θ, 0 ° of θ≤45 ° < (interface axis direction and the back of boundling connector Plate or longitudinal slightly inclined at the antenna house back side, make the interface axis direction of boundling connector and the interface axis side of active equipment Have a small installing angle to opposite), boundling connector can with feeding network line inside antenna body, when bunched cable has with described When source device and boundling connector connect, the interface axis direction of the interface axis direction and active equipment that make boundling connector is opposite In antenna back panel in parallel or in 45 ° of angles are less than or equal to, the bending degree to bunched cable can effectively reduce, reduce boundling electricity The grafting operation difficulty of cable and boundling connector and active equipment, while the length of bunched cable can also be shortened and reduce bunched cable Loss.

In one embodiment, the boundling joint structure is multiple, and the boundling joint structure is for being mounted on Left side, right side, upside or the downside of the active equipment.

In one embodiment, the antenna body includes antenna house and backboard, and the backboard and the antenna house connect It connects and surrounds accommodating chamber, reflecting plate, phase shifter and calibration network plate are equipped in the accommodating chamber, the calibration network plate is installed on institute It states in mounting base, the connector feeder line of the boundling connector and the calibration network plate weld, and the calibration network plate passes through first Feeder line and the phase shifter are electrically connected, and the reflecting plate is equipped at least two radiating elements, and the phase shifter passes through second Feeder line and the radiating element are electrically connected.

In one embodiment, support column, one end of the support column and the reflection are additionally provided in the accommodating chamber Plate is fixedly connected, the other end and the calibration network plate floating connection.

In one embodiment, through-hole is offered on the backboard, the mounting base is close to the calibration network plate It is equipped with the second waterproof grommet between one end and backboard connection and the backboard, the mounting base is far from the calibration network One end of plate is installed with boundling connector and stretches out outside the through-hole.

In one embodiment, the array antenna further includes the Decorative Cover that the antenna body back side is arranged in, described Decorative Cover is rotatably connected by shaft and the antenna body, for being located at outside the active equipment；In the Decorative Cover Offer heat release hole.

A kind of antenna system, including active equipment and array antenna described in any of the above embodiments, the active equipment installation On the backboard of the antenna body or the antenna house back side of antenna body, and the active equipment passes through with the boundling connector Bunched cable is electrically connected.

Above-mentioned antenna system, antenna body are connect with active equipment using bunched cable, and the setting of boundling connector is being installed On seat, mounting base and the integral installation of boundling connector make the interface axis of boundling connector on the backboard of antenna or the antenna house back side The interface axis direction of the line direction boundling connector vertical or described with the positive normal direction of the backboard or the antenna house back side with Plane where the backboard or the antenna house back side is in the angle of θ, 0 ° of θ≤45 ° < (interface axis direction of boundling connector With longitudinal slightly inclined of the backboard or the antenna house back side, make the interface axis direction of boundling connector and connecing for active equipment Mouth axis direction is opposite a small installing angle), boundling connector can work as bunched cable with feeding network line inside antenna body When connecting with the active equipment and boundling connector, make the interface axis direction of boundling connector and the interface axis side of active equipment , in parallel or in 45 ° of angles are less than or equal to, it can effectively reduce the bending degree to bunched cable to both with respect to antenna back panel, drop The grafting operation difficulty of low bunched cable and boundling connector and active equipment, while the length and reduction of bunched cable can also be shortened The loss of bunched cable.

In one embodiment, the active equipment is independently encapsulated with the antenna body；The active equipment For radio frequency component；The active equipment is removably mounted on the backboard；The backboard is equipped with hanging buckle, and the hanging buckle is logical It crosses fastener and is fixed on the antenna body back side, the active equipment is connect with the hanging buckle.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the array antenna (Decorative Cover closing) of an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of the array antenna (Decorative Cover opening) of an embodiment of the present invention；

Fig. 3 is the structural schematic diagram of the array antenna (no decoration cover) of an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of the array antenna (no decoration cover) of another embodiment of the utility model；

Fig. 5 is the diagrammatic cross-section of the boundling joint structure of an embodiment of the present invention；

Fig. 6 is the diagrammatic cross-section of the boundling joint structure of another embodiment of the utility model；

Fig. 7 is the diagrammatic cross-section of the boundling joint structure of another embodiment of the utility model；

Fig. 8 is the boundling connector and antenna feeding network line schematic diagram of an embodiment of the present invention；

Fig. 9 is the enlarged diagram in Fig. 8 at A.

Description of symbols:

10, boundling joint structure, 110, mounting base, 112, inner cavity, 111, flange bottom wall, 113, the first side wall, 115, top Wall, 117, second sidewall, 120, boundling connector, 122, connector portions, 124, flange portion, 126, connector feeder line, the 130, first waterproof Sealing ring, the 140, second waterproof grommet, 20, antenna body, 210, backboard, 220, antenna house, 230, reflecting plate, 240, phase shift Device, 250, calibration network plate, the 252, first feeding point, the 254, second feeding point, the 260, first feeder line, 270, radiating element, 280, support column, 30, active equipment, 40, Decorative Cover, 410, heat release hole, 50, bunched cable.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms It realizes, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes to the utility model The understanding of disclosure is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

" first " described in the utility model, " second " do not represent specific quantity and sequence, are only used for title It distinguishes.

Referring to Fig. 2,3,4, an embodiment provides a kind of boundling joint structure 10, including mounting base 110 and boundling connector 120, the mounting base 110 is used to be installed on the backboard 210 of antenna body 20 or the antenna house 220 of antenna body 20 back Face, the boundling connector 120 are arranged in the mounting base 110, and the interface axis direction of the boundling connector 120 with it is described Positive normal direction (referring to arrow a direction in Fig. 2) the vertical or described boundling at 220 back side of backboard 210 or antenna house connects Plane where the interface axis direction and the backboard of head or the antenna house back side is in the angle of θ, and 0 ° of θ≤45 ° < is (referring to figure 7)。

Boundling connector 120 is arranged in the mounting base 110 the present embodiment, and mounting base 110 and boundling connector 120 are whole It is mounted on the backboard 210 of antenna or 220 back side of antenna house, boundling connector 120 can lead to inner antenna feeding network line Mounting base 110 is crossed, the interface axis direction of boundling connector 120 and the positive normal at 220 back side of the backboard 210 or antenna house are made Direction is vertical or the interface axis direction of the boundling connector and the plane where the backboard or the antenna house back side are in the folder of θ Angle, (the interface axis direction and the backboard of boundling connector or the longitudinal direction at the antenna house back side are (referring in Fig. 2 for 0 ° of θ≤45 ° < Arrow b direction) slightly inclined, make the interface axis direction of boundling connector is opposite with the interface axis direction of active equipment to have One small installing angle), when the active equipment 30 for being mounted on the antenna back side needs to establish connection with the antenna, can adopt It is connect with bunched cable 50 with the active equipment 30 and boundling connector 120, can effectively reduce the bending journey to bunched cable 50 Degree, reduces the grafting operation difficulty of bunched cable 50 and boundling connector 120 and active equipment 30, while can also shorten bunched cable 50 length and the loss for reducing bunched cable 50.

Compared to traditional technology, the boundling joint structure 10 of the present embodiment revolves 120 interface of boundling connector of passive antenna It turn 90 degrees and is installed on the antenna back side, making bunched cable 50 only needs to carry out first order buckling (referring to Fig. 3) or without substantially bending (ginseng According to Fig. 4), reduce the bending difficulty of bunched cable 50, be conducive to shorten cable length, reduces cable loss, meanwhile, but also The connection and installation of bunched cable 50 are more convenient.

In one embodiment, when the interface axis direction of the boundling connector and the backboard or the antenna house back side When the plane at place is in the angle of θ, the θ is 30 °.To make the interface axis direction of boundling connector and the interface of active equipment Axis direction is opposite to have one to facilitate the two to realize connection by bunched cable 50 compared with small installing angle, is bent bunched cable 50 Degree is small, reduces its loss.Grafting simultaneously is more convenient, and difficulty is smaller.

Referring to Fig. 5,6,7, specifically, the mounting base 110 includes pedestal, the first mounting portion and at least one second installation Portion.The pedestal is equipped with inner cavity 112；First mounting portion is set to the pedestal, and first mounting portion includes being used for institute State the first installation end face of mounting base 110 and the backboard 210 or the fixed installation of 220 back side of the antenna house and described first The first mounting hole opened up on installation end face.Second mounting portion be set to the pedestal, and second mounting portion include with First installation end face is in install end face and in institute more than or equal to 45 ° and less than or equal to the second of 90 ° of angles The second mounting hole opened up on the second installation end face is stated, the boundling connector 120 is assemblied on second installation end face, and institute The interface and second mounting hole for stating boundling connector 120 are oppositely arranged.Second mounting hole, the inner cavity 112 and described First mounting hole be successively formed through the connector feeder line 126 being connect with the boundling connector 120 first go out line passage.

Optionally, second mounting portion is two or more, reference Fig. 2,3,5,6, on two second mounting portions Lower relative spacing setting, i.e. a boundling connector 120 install (direction of arrow b in Fig. 2) vertically upward, another boundling connects It installs downward first 120 longitudinal direction.Or referring to Fig. 4, the setting of two described second mounting portions or so adjacent spaces；I.e. two boundlings connect First 120 install upward side by side.Or referring to Fig. 7, the opposite tilt interval setting up and down of two second mounting portions；I.e. one collection The opposite first installation end face of beam connector 120 is installed in the angle of θ, 0 ° of θ≤45 ° <, opposite first peace of another boundling connector 120 It fills end face to install in the angle of θ, 0 ° of θ≤45 ° <.One or more boundling connectors 120 are installed in a mounting base 110, so It is mounted as a whole on the antenna back side with mounting base 110 afterwards, overall structure is more compact, and it is more reasonable to be laid out.

The mounting base 110 is connected by the backboard 210 or antenna house 220 of the first mounting portion and antenna, i.e., the first installation End face is concordant with the backboard 210 of antenna or 220 back side of antenna house, installs boundling connector 120, and second by the second mounting portion Installing end face, end face is vertical or 45 ° to 90 ° angles with the first installation, i.e., second installs the backboard 210 or day of end face and antenna 220 back side of irdome is vertical or 45 ° to 90 ° angles, to realize the interface axis direction of boundling connector 120 and the backboard of antenna 210 or 220 back side of antenna house is vertical or near normal.Second mounting hole, inner cavity 112 and the first mounting hole are successively formed through The first of the connector feeder line 126 connecting with boundling connector 120 goes out line passage, that is, the connector feeder line 126 1 being located in inner cavity 112 End is connect with boundling connector 120, and the other end passes through the first mounting hole and inner antenna feeding network line.Overall construction design is skilful It is wonderful, it is convenient for construction and installation.

Optionally, referring to Fig. 5, in one embodiment, the boundling connector 120 includes the connector portions 122 being connected With flange portion 124, the connector portions 122 stretch out second mounting hole, and the flange portion 124 is located at the mounting base 110 In inner cavity 112, the flange portion 124 is connect with the second installation end face.Referring to Fig. 6, in another embodiment, the connector portions 122 and flange portion 124 be arranged at 110 outside of the mounting base, the flange portion 124 is installed end face with described second and is connect. Mounting hole is opened up on the second installation end face and flange portion 124, flange portion 124 is fixed on by the second installation end by screw The end face being connect in flange portion 124 with connector portions 122 on face or the end face phase being connect in flange portion 124 with connector portions 122 Pair end face and the second installation end face paste close.

Further, the first waterproof grommet 130 is equipped between the boundling connector 120 and the mounting base 110.Ginseng According to Fig. 5,6,7, the first waterproof grommet 130 is set between flange portion 124 and the second installation end face, makes to seal between the two Waterproof protects the component in mounting base 110.The good sealing waterproof of boundling connector 120 not only may be implemented, combine The convenience that boundling connector 120 is installed makes antenna have productibility.

Referring to Fig. 5,6,7, specifically, in one embodiment, the pedestal includes flange bottom wall 111, the first side wall 113, roof 115 and second sidewall 117, the first side wall 113, the roof 115 and the second sidewall 117 are successively enclosed and are connect It is convexly equipped on the flange bottom wall 111 and is formed the inner cavity 112, first installation end face is mentioned by the flange bottom wall 111 For second installation end face is provided by the first side wall 113 or the second sidewall 117.The first side wall 113 and second Side wall 117 is oppositely arranged, and flange bottom wall 111 is oppositely arranged with roof 115, and the both ends of flange bottom wall 111 are with respect to the first side wall 113 extend outwardly respectively with second sidewall 117, for connecting with the back side of the backboard 210 of antenna or antenna house 220.Into one Step ground, flange bottom wall 111 are equipped with stepped groove, can be fixed with the backboard 210 of antenna or the back side of antenna house 220 by stepped groove Position cooperation, opens up mounting hole in the bottom wall and 210 corresponding position of backboard of stepped groove, by screw by backboard 210 and flange bottom wall 111 are fixedly connected.Further, it is equipped with the second sealing ring in stepped groove, makes the backboard 210 of antenna or the back of antenna house 220 Waterproof is sealed between face and flange wall, protects the component of inner antenna.

In one embodiment, the flange bottom wall 111 includes the first surface and second surface being oppositely arranged, described First installation end face is provided by the first surface, and the second surface is for positioning assembly calibration network plate 250, the calibration It is connected between network board 250 and the boundling connector 120 by the connector feeder line 126.That is the first table of flange bottom wall 111 Face with the back side of the backboard 210 of antenna or antenna house 220 for connecting, and second surface is for the calibration network with inner antenna Plate 250 connects, and the first mounting hole runs through first surface and second surface.Peace is equipped on second surface and calibration network plate 250 Hole is filled, is fixedly connected with calibration network plate 250 with the second surface of flange bottom wall 111 by screw.

Referring to Fig.1-4, one embodiment of the application also provides a kind of array antenna, including antenna body 20 and any of the above-described The boundling joint structure 10, on the backboard 210 of the antenna body 20 or 220 back side of antenna house of antenna body 20 are used It is used to be electrically connected with the active equipment 30 in the boundling connector 120 on installation active equipment 30, the mounting base 110.

Boundling connector 120 is arranged in the mounting base 110 array antenna of the present embodiment, mounting base 110 and collection 120 integral installation of beam connector is on the backboard 210 of antenna body 20 or 220 back side of antenna house of antenna body 20, by setting Mounting base 110 is set, the interface axis direction of boundling connector 120 and the positive normal at 220 back side of the backboard 210 or antenna house are made Direction is vertical or the interface axis direction of the boundling connector and the plane where the backboard or the antenna house back side are in the folder of θ Angle, (the interface axis direction and the backboard of boundling connector or longitudinal slightly inclined at the antenna house back side, make for 0 ° of θ≤45 ° < The interface axis direction of boundling connector and the interface axis direction of active equipment is opposite a small installing angle), boundling connector 120 Can with 20 inside feeding network line of antenna body, when bunched cable 50 is connect with the active equipment 30 and boundling connector 120 When, keep the interface axis direction of boundling connector 120 and the interface axis direction of active equipment 30 flat both with respect to antenna back panel 210 Row is in be less than or equal to 45 ° of angles, can effectively reduce the bending degree to bunched cable 50, reduces bunched cable 50 and collection The grafting operation difficulty of beam connector 120 and active equipment 30, while the length of bunched cable 50 can also be shortened and reduce boundling electricity The loss of cable 50.

Optionally, the boundling joint structure 10 is multiple, and the boundling joint structure 10 described has for being mounted on Left side, right side, upside or the downside of source device 30.Referring to Fig. 3, boundling joint structure 10 is two, is separately positioned on active The left and right side of equipment 30.Referring to Fig. 4, technology joint structure is two, is arranged at the downside of active equipment 30.Passive day The boundling connector 120 of line is installed on the antenna back side, and is arranged in the two sides close to active equipment 30 or upper and lower ends, allows to Feed is connect using short bunched cable 50 between active equipment 30, preferred 50 length component of bunched cable is not more than 500mm, with Reduce cable loss.

Specifically, referring to Fig. 5,6,7,8,9, the antenna body 20 includes antenna house 220 and backboard 210, the backboard 210 connect with the antenna house 220 and surround accommodating chamber, and reflecting plate 230, phase shifter 240 and calibration net are equipped in the accommodating chamber Network plate 250, the calibration network plate 250 are installed in the mounting base 110, the connector feeder line 126 of the boundling connector 120 It is welded with the calibration network plate 250, the calibration network plate 250 is electrically connected by the first feeder line 260 and the phase shifter 240 It connects, the reflecting plate 230 is equipped at least two radiating elements 270, and the phase shifter 240 passes through the second feeder line and the spoke Penetrate the electric connection of unit 270.Firstly, any the first of the either connector feeder line 126 of boundling connector 120 and calibration network plate 250 Feeding point 252 is electrically connected, and then any second feeding point 254 corresponding with the first feeding point 252 passes through on calibration network plate 250 First feeder line 260 is electrically connected with the phase shifter 240 of any cell array, and phase shifter 240 passes through the second feeder line and radiating element again 270 electrical connections.

Support column 280 is additionally provided in the accommodating chamber in one embodiment referring to Fig. 5, the support column 280 One end is fixedly connected with the reflecting plate 230, the other end and 250 floating connection of calibration network plate.Calibration network plate 250 is not It is only installed in mounting base 110, and with the integrated floating support of mounting base 110 in the support column 280 being fixed on reflecting plate 230 On.So set, when 20 internal structure of antenna body does not use antenna house 220 and backboard 210 to be packaged, calibration network plate 250 and 110 floating support of mounting base on reflecting plate 230, when 20 internal structure of antenna body uses antenna house 220 and backboard 210 when being packaged, and mounting base 110 must be fastened on the backboard 210 of antenna to realize and seal waterproof, at this time due to mounting base 110 can avoid generating constructive interference when fastening mounting base 110 along 280 axial floating of support column.

Further, referring to Fig. 5, through-hole is offered on the backboard 210, the mounting base 110 is close to the calibration net One end of network plate 250 and the backboard 210 connect and are equipped with the second waterproof grommet 140, the peace between the backboard 210 Dress seat 110 is installed with boundling connector 120 far from one end of the calibration network plate 250 and stretches out outside the through-hole.That is backboard 210 By being located at mounting base 110 outside accommodating chamber equipped with the part of boundling connector 120, and the part being connect with calibration network plate 250 In accommodating chamber, the second waterproof grommet 140 is set, it is ensured that seals between both between mounting base 110 and backboard 210 Waterproof.

In one embodiment, referring to Fig.1,2, the array antenna further include be arranged at 20 back side of antenna body Decorative Cover 40, the Decorative Cover 40 is rotatably connected by shaft with the antenna body 20, described active for being located at Outside equipment 30.The antenna back side is beautified using Decorative Cover 40, not only increases the aesthetic effect of antenna entirety, while can have Effect protection active equipment 30 and boundling joint structure 10 and bunched cable 50, Decorative Cover 40 rotatably open and close, are convenient for The installation and removal of active equipment 30 and bunched cable 50.Further, heat release hole 410 is offered in the Decorative Cover 40, led to Heat release hole 410 is crossed, is radiated convenient for active equipment 30.In the present embodiment, the two sides of backboard 210 are equipped with Decorative Cover 40, two decorations Cover 40 can opposite and opposite rotation, realize on and off, and the two installing cover places of being connected to each other are equipped with and latch, and make two dresses by latching Decorations cover 40, which is realized, to be bonded.According to demand, one biggish rotatable Decorative Cover can be set in the side of backboard 210 40, entirety is located at outside backboard 210, and 210 other side of backboard and the Decorative Cover 40 pass through lock connection.

Referring to Fig.1-4, one embodiment of the application also provides a kind of antenna system, including active equipment 30 and any of the above-described Array antenna described in embodiment, the active equipment 30 is mounted on the backboard 210 of the antenna body 20 or antenna body 20 220 back side of antenna house, and the active equipment 30 is electrically connected with the boundling connector 120 by bunched cable 50.

The antenna body 20 of the antenna system is connect with active equipment 30 using bunched cable 50, and boundling connector 120 is set It sets in mounting base 110, mounting base 110 and 120 integral installation of boundling connector are on the backboard 210 of antenna or antenna house 220 It hangs down in the positive normal direction at the back side, the interface axis direction and 220 back side of the backboard 210 or antenna house that make boundling connector 120 Plane where the interface axis direction of the straight or described boundling connector and the backboard or the antenna house back side is in the angle of θ, and 0 ° (the interface axis direction and the backboard of boundling connector or longitudinal slightly inclined at the antenna house back side, make boundling for θ≤45 ° < The interface axis direction of connector and the interface axis direction of active equipment is opposite a small installing angle), boundling connector 120 can be with 20 inside feeding network line of antenna body, when bunched cable 50 is connect with the active equipment 30 and boundling connector 120, Keep the interface axis direction of boundling connector 120 parallel both with respect to antenna back panel 210 with the interface axis direction of active equipment 30 Or in 45 ° of angles are less than or equal to, can effectively reduce the bending degree to bunched cable 50, it reduces bunched cable 50 and is connect with boundling First 120 and active equipment 30 grafting operation difficulty, while can also shorten bunched cable 50 length and reduce bunched cable 50 Loss.

Further, the active equipment 30 is independently encapsulated with the antenna body 20.The active equipment 30 can It is releasably mounted on the backboard 210；The backboard 210 is equipped with hanging buckle, and the hanging buckle is fixed on described by fastener 20 back side of antenna body, the active equipment 30 are connect with the hanging buckle.The active equipment 30 is radio frequency component.Active equipment 30 and passive antenna independently encapsulate and using the connection feed of bunched cable 50, it is convenient to realize active equipment 30 and passive Assembly and disassembly and replacement between antenna greatly improve the flexibility configured between different passive antennas and active equipment 30, improve to difference The adaptability of scene application, to meet a variety of covering demands of user.

In terms of cordless communication network construction angle, the quality of network signal covering is very important, however, it is necessary to signal The scene of covering is multifarious, and different scenes needs adaptable antenna and covered, to obtain optimal coverage effect And user experience, if only covered using AAU antenna, then it can be relatively fewer because of the model or kind of AAU antenna, it can Selectivity is restricted, and cannot neatly cope with the covering demand of different scenes, certain puzzlement is brought to 5G network construction.This The antenna system that embodiment provides, makes to be attached feedback between active equipment 30 and passive antenna by using short bunched cable 50 Electricity, and to bend difficulty small for bunched cable 50, thus make to carry out with can be convenient between active equipment 30 and passive antenna dismounting or Replacement overcomes the problem of AAU antenna not can be removably mounted, and realizes passive antenna and active equipment 30 in 5G large scale array antenna Efficiently separate, allow 5G network construction to be needed to select adaptable passive antenna for greater flexibility according to different scenes, to reach To optimal network overlapping effect.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (15)

1. a kind of boundling joint structure, which is characterized in that including mounting base and boundling connector, the mounting base is for being installed on day On the backboard of the line ontology or antenna house back side of antenna body, the boundling connector are arranged in the mounting base, and described The interface axis direction of boundling connector is vertical with the positive normal direction at the backboard or the antenna house back side, or

Plane where the interface axis direction of the boundling connector and the backboard or the antenna house back side is in the angle of θ, and 0 ° θ≤45 ° <.

2. boundling joint structure according to claim 1, which is characterized in that the mounting base includes:

Pedestal, the pedestal are equipped with inner cavity；

First mounting portion, first mounting portion is set to the pedestal, and first mounting portion includes being used for the mounting base It the first installation end face for being fixedly mounted with the backboard or the antenna house back side and is opened up on first installation end face First mounting hole；

At least one second mounting portion, second mounting portion be set to the pedestal, and second mounting portion include with it is described First installation end face is in more than or equal to 45 ° and to be less than or equal to the second installation end face of 90 ° of angles and described the The second mounting hole opened up on two installation end faces, the boundling connector is assemblied on second installation end face, and the boundling The interface of connector is oppositely arranged with second mounting hole；

Second mounting hole, the inner cavity and first mounting hole are successively formed through to be connect with what the boundling connector was connect The first of head feeder line goes out line passage.

3. boundling joint structure according to claim 2, which is characterized in that the boundling connector includes the connector being connected Portion and flange portion,

The connector portions stretch out second mounting hole, and the flange portion is located in the inner cavity of the mounting base, the flange portion It is connect with the second installation end face；

Alternatively,

The connector portions and flange portion are arranged on the outside of the mounting base, and the flange portion and second installation end face connect It connects.

4. boundling joint structure according to claim 1, which is characterized in that between the boundling connector and the mounting base Equipped with the first waterproof grommet.

5. boundling joint structure according to claim 2, which is characterized in that second mounting portion is two, two institutes State the second mounting portion relative spacing setting or the setting of left and right adjacent spaces or opposite tilt interval setting up and down up and down.

6. boundling joint structure according to claim 2, which is characterized in that the pedestal includes flange bottom wall, the first side Wall, roof and second sidewall, the first side wall, the roof and the second sidewall, which successively enclose to connect, is convexly equipped in the flange bottom On wall and the inner cavity is formed, first installation end face is provided by the flange bottom wall, and second installation end face is by described The first side wall or the second sidewall provide.

7. boundling joint structure according to claim 6, which is characterized in that the flange bottom wall includes be oppositely arranged One surface and second surface, first installation end face are provided by the first surface, and the second surface is for positioning assembly Calibration network plate is connected between the calibration network plate and the boundling connector by the connector feeder line.

8. a kind of array antenna, which is characterized in that including antenna body and the described in any item boundling connector knots of claim 1-7 Structure, on the backboard of the antenna body or antenna house back side of antenna body is for installing active equipment, in the mounting base Boundling connector is used to be electrically connected with the active equipment.

9. array antenna according to claim 8, which is characterized in that the boundling joint structure is multiple, and the collection Beam joint structure is used to be mounted on left side, right side, upside or the downside of the active equipment.

10. array antenna according to claim 8 or claim 9, which is characterized in that the antenna body includes antenna house and back Plate, the backboard connect with the antenna house and surround accommodating chamber, and reflecting plate, phase shifter and calibration network are equipped in the accommodating chamber Plate, the calibration network plate are installed in the mounting base, and the connector feeder line of the boundling connector and the calibration network plate weld It connects, the calibration network plate is electrically connected by the first feeder line and the phase shifter, and the reflecting plate is equipped at least two spokes Unit is penetrated, the phase shifter is electrically connected by the second feeder line and the radiating element.

11. array antenna according to claim 10, which is characterized in that support column is additionally provided in the accommodating chamber, it is described One end of support column is fixedly connected with the reflecting plate, the other end and the calibration network plate floating connection.

12. array antenna according to claim 11, which is characterized in that offer through-hole, the installation on the backboard The one end and the backboard for seating against the nearly calibration network plate connect and are equipped with the second waterproof grommet, institute between the backboard Mounting base is stated to be installed with boundling connector far from one end of the calibration network plate and stretch out outside the through-hole.

13. array antenna according to claim 8 or claim 9, which is characterized in that further include the dress that the antenna body back side is arranged in Decorations cover, the Decorative Cover is rotatably connected by shaft and the antenna body, for being located at outside the active equipment；It is described Heat release hole is offered in Decorative Cover.

14. a kind of antenna system, which is characterized in that including active equipment and the described in any item array days claim 8-13 Line, the active equipment is mounted on the backboard of the antenna body or the antenna house back side of antenna body, and described active sets It is standby to be electrically connected with the boundling connector by bunched cable.

15. antenna system according to claim 14, which is characterized in that the active equipment and the antenna body are distinguished Individual packages；The active equipment is radio frequency component；The active equipment is removably mounted on the backboard；The backboard It is equipped with hanging buckle, the hanging buckle is fixed on the antenna body back side by fastener, and the active equipment and the hanging buckle connect It connects.