CN206584038U - A kind of active phase array antenna debugging system testing jig - Google Patents
A kind of active phase array antenna debugging system testing jig Download PDFInfo
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- CN206584038U CN206584038U CN201621293091.3U CN201621293091U CN206584038U CN 206584038 U CN206584038 U CN 206584038U CN 201621293091 U CN201621293091 U CN 201621293091U CN 206584038 U CN206584038 U CN 206584038U
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- frame body
- screw mandrel
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- guide rail
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Abstract
The utility model discloses a kind of active phase array antenna debugging system testing jig, including portal frame component(1), vertical guide rail component(2)With horizontal guide rail component(3);The vertical guide rail component(2)In square frame body left side and right side respectively with portal frame component(1)In portal frame body (11) left side and right side on the first sliding block (15) connection, the horizontal guide rail component(3)In crossbeam (31) two ends respectively with vertical guide rail component(2)In square frame body (26) left side and right side on the second sliding block (23) connection, this testing jig can level, vertical and quadrant elevation type regulation measured piece, so as to realizing all-around mobile on the ground, to adapt to the test request of the phased array antenna more than number of channels.
Description
Technical field
The utility model is related to technical field of micro communication, particularly a kind of active phase array antenna debugging system test
Frame, can all-around mobile on the ground.
Background technology
With developing rapidly for modern electronic technology, increasing radar system is added to the ranks of phased array system.
Phased-array radar can be divided into active and passive two class, and the main distinction of the two is the number of transmitting/reception element.It is passive phased
Battle array radar only has a central transmitter and a receiver, and the high-frequency energy that emitter is produced is automatically assigned to day through computer
Each radiator of linear array, the received machine of target echo is unified to be amplified.Each radiator of Connectors for Active Phased Array Radar is matched somebody with somebody
Equipped with a transmitting/receiving unit, each component can be launched, receive electromagnetic wave, therefore in frequency range, signal transacting and superfluous degree
All there is larger advantage in design than inactive phased array radar.Just because of this, the cost of Connectors for Active Phased Array Radar is also caused
Costliness, engineering difficulty is increased.The number of channels of modern large-scale Connectors for Active Phased Array Radar system is general all very big, be in the short time
The detection of the performances such as interior power, frequency spectrum, amplitude versus frequency characte, the phase-frequency characteristic for completing each passage, the means to antenna measurement are proposed
Very high requirement.Past manual test be it is artificial each passage is opened and closed successively, the width for measuring each passage is mutually special
Property and record data, the phased array antenna for small scale is feasible but this for the phased array antenna more than number of channels
Method not only waste of manpower but also had expended the time, had a strong impact on research and production progress.
Utility model content
The technical problem of the present utility model to be solved is:A kind of active phase array antenna debugging system testing jig is provided,
Can level, vertical and quadrant elevation type regulation measured piece, it is phased more than number of channels to adapt to so as to realize all-around mobile on the ground
The test request of array antenna.
To achieve these goals, the technical scheme that the utility model is taken is:A kind of active phase array antenna debugging system
System testing jig, it is characterised in that including portal frame component(1), vertical guide rail component(2)With horizontal guide rail component(3);
The portal frame component(1)Including portal frame body(11), the first screw mandrel(12), the first sliding block(15), first turn
Moving axis(13)And first handle(14), the portal frame body(11)Left side and right side be respectively equipped with first screw mandrel
(12), on first screw mandrel(12)Provided with the first sliding block(15)And both form screw pair, the first handle(14)With dragon
Door frame body(11)Left side or right side on the first screw mandrel(12)It is connected, first rotary shaft(13)Two ends lead to respectively
Cross a bevel gear pair and portal frame body(11)Left and right sides on the first screw mandrel(12)It is connected;
The vertical guide rail component(2)Including square frame body(26), the second screw mandrel(22), the second sliding block(23), second rotate
Axle(24), second handle(25)With cursor type scale reading chi(21);The square frame body(26)Left side and right side are respectively equipped with one
Individual second screw mandrel(22), second screw mandrel(22)It is provided with the second sliding block(23)And both form screw pair, the second-hand
Handle(25)With square frame body(26)Left side or second screw mandrel on right side(22)It is connected and second screw mandrel(22)Pass through a bevel gear
Secondary and the second rotary shaft(24)It is connected, second rotary shaft(24)Pass through a bevel gear pair and another second screw mandrel(22)Phase
Even, the cursor type scale reading chi(21)It is arranged on square frame body(26)On left side or right side;
The horizontal guide rail component(3)Including crossbeam(31), the 3rd screw mandrel(32), the 3rd sliding block(33)With the 3rd handle
(34);The crossbeam(31)Provided with the 3rd screw mandrel (32), the 3rd screw mandrel (32) provided with the 3rd sliding block (33) and
Both form screw pair, the 3rd screw mandrel (32) and the 3rd handle(34)Connection, the 3rd sliding block(33)For installing quilt
Survey part;
The vertical guide rail component(2)In square frame body left side and right side respectively with portal frame component(1)In gantry
The first sliding block (15) connection on the left side and right side of frame body (11), the horizontal guide rail component(3)In crossbeam (31)
Two ends respectively with vertical guide rail component(2)In square frame body (26) left side and right side on the second sliding block (23) connection.
Further, the first handle(14)It is arranged on portal frame body(11)Left side or right side on and pass through
One bevel gear pair and the first screw mandrel on the side(12)It is connected.
Further, the portal frame body(11)Left side and right side on the first sliding block(15)It is respectively equipped with installation
The left side and right side of square frame body (26) in hole, the vertical guide rail component (2) are respectively equipped with installation axle(27), the square frame body
(26)Left side and the installation axle on right side(27)Portal frame body is rotatably arranged on respectively(11)The first sliding block on left side and right side
(15)Mounting hole in, a rotating disk is set on the installation axle (27)(28), the rotating disk(28)On be provided with many of circle distribution
Individual positioning hole, first sliding block (15) be provided with a positioning block (151), the locating piece (151) provided with a positioning hole with
It can be interspersed in simultaneously for an alignment pin (152) in the positioning hole on any positioning hole and locating piece on rotating disk (28).
Compared with prior art, the beneficial effects of the utility model are:This testing jig can level, the regulation of vertical and quadrant elevation type
Measured piece, so as to realize all-around mobile on the ground, to adapt to the test request of the phased array antenna more than number of channels.
Brief description of the drawings
Fig. 1 show lateral structure schematic diagram of the present utility model;
Fig. 2 show forward structure schematic diagram of the present utility model;
Fig. 3 show the package assembly scheme of installation of first handle of the present utility model and the first screw mandrel;
Fig. 4 show square frame body, the second screw mandrel, the second rotary shaft and the second-hand of vertical guide rail component in the utility model
The assembly structure diagram of handle;
Fig. 5 show the integral installation schematic diagram of vertical guide rail component in the utility model;
Fig. 6 show the structure scheme of installation of the pitching alignment pin of vertical guide rail component in the utility model;
Fig. 7 show the crossbeam of horizontal guide rail component in the utility model, the 3rd screw mandrel, the 3rd handle and the 3rd sliding block
Assembly structure diagram.
In figure, portal frame component 1, portal frame body 11, the first screw mandrel 12, the first rotary shaft 13, first handle 14, first
Sliding block 15, vertical guide rail component 2, square frame body 26, the second screw mandrel 22, the second sliding block 23, the second rotary shaft 24, second handle 25,
Cursor type scale reading chi 21, horizontal guide rail component 3, crossbeam 31, the 3rd screw mandrel 32, the 3rd sliding block 33, the 3rd handle 34, positioning
Block 151, alignment pin 152.
Embodiment
Embodiment of the present utility model is described further below in conjunction with the accompanying drawings, so as to more be understood that this practicality
Where new creation point.
Embodiment 1 as shown in figure 1, a kind of active phase array antenna debugging system testing jig, including portal frame component 1,
Vertical guide rail component 2 and horizontal guide rail component 3;Shown in Fig. 2, the portal frame component 1 includes portal frame body 11, the first screw mandrel
12nd, the first rotary shaft 13, the sliding block 15 of first handle 14 and first, the left side and right side of the portal frame body 11 are respectively equipped with one
Individual first screw mandrel 12, the first screw mandrel 12 is set especially by bearing is installed, and first screw mandrel 12 is provided with the first sliding block 15
And both form screw pair, the first handle 14 and the phase of the first screw mandrel 12 on the left side or right side of portal frame body 11
Even, the two ends of first rotary shaft 13 pass through the first screw mandrel on the left and right sides of a bevel gear pair and portal frame body 11 respectively
12 are connected;By the shake of first handle 14, the synchronous axial system of the first screw mandrel 12 of both sides promotes the first sliding block 15 of both sides synchronous
Motion, so as to drive vertical guide rail component 2 to move up and down therewith;As shown in Figure 4 and Figure 5, the vertical guide rail component 2 includes side
Framework 26, the second screw mandrel 22, the second sliding block 23, the second rotary shaft 24, second handle 25 and cursor type scale reading chi 21;It is described
The left side of square frame body 26 and right side are respectively equipped with second screw mandrel 22, and the second screw mandrel 22, institute are set especially by bearing is installed
The second screw mandrel 22 is stated provided with the second sliding block 23 and both form screw pairs, the left side of the second handle 25 and square frame body 26 or
Second screw mandrel 22 on right side is connected and second screw mandrel 22 is connected by a bevel gear pair with the second rotary shaft 24, described second turn
Moving axis 24 is connected by a bevel gear pair with another second screw mandrel 22, and the cursor type scale reading chi 21 is arranged on square frame body
On 26 left sides or right side;Second rotary shaft 24 is driven by second handle 25, the second screw mandrel 22 of left and right sides can be made simultaneously
Rotate so that the second sliding block 23 of left and right two, so as to ensure that horizontal guide rail component 3 can be moved up and down, can be led to synchronizing moving
Cursor type scale reading chi 21 is crossed it is known that the distance values of movement, the readout resolutions of cursor type scale reading chi 21 reach
0.1mm;As shown in fig. 7, the horizontal guide rail component 3 includes crossbeam 31, the 3rd screw mandrel 32, the 3rd sliding block 33 and the 3rd handle
34;The crossbeam 31 sets the 3rd screw mandrel 32, described 3rd provided with the 3rd screw mandrel 32 especially by bearing is installed
Bar 32 is provided with the 3rd sliding block 33 and both form screw pair, and the 3rd screw mandrel 32 is connected with the 3rd handle 34, and the described 3rd
Sliding block 33 is used to install measured piece;3rd screw mandrel 32 is rotated by the 3rd handle 34, so that the 3rd sliding block 33 can left and right
It is mobile, testing cassete is housed on the 3rd sliding block 33 or probe or switching network can be housed(Do not indicated in figure);The vertical guide rail
The left side and right side of square frame body in component 2 respectively with the left side and right side of the portal frame body 11 in portal frame component 1
First sliding block 15 is connected, the two ends of the crossbeam 31 in the horizontal guide rail component 3 respectively with the square frame body in vertical guide rail component 2
The second sliding block 23 on 26 left side and right side is connected.
Specifically, shown in Fig. 3, the first handle 14 is arranged on the left side of portal frame body 11 or right side and led to
A bevel gear pair is crossed with the first screw mandrel 12 on the side to be connected.
In order to control vertical guide rail component and portal frame component between angle, as shown in fig. 6, the portal frame body
The first sliding block 15 on 11 left side and right side is respectively equipped with a left side for the square frame body 26 in mounting hole, the vertical guide rail component 2
Side and right side are respectively equipped with installation axle 27, and the installation axle 27 in the left side of square frame body 26 and right side is rotatably arranged on portal frame respectively
In the mounting hole of the left side of body 11 and the first sliding block 15 on right side, a rotating disk 28, the rotating disk are set in the installation axle 27
Multiple positioning holes of circle distribution are provided with 28, first sliding block 15 is provided with a positioning block 151, the locating piece 151
The positioning hole on any positioning hole and the locating piece on rotating disk 28 can be interspersed in simultaneously for an alignment pin 152 provided with a positioning hole
In, the angle of vertical guide rail component is adjusted by rotating rotating disk and is fastened by alignment pin.
On the basis of embodiment 1, a kind of active phase array antenna debugging system testing jig includes four universal caster wheels 4,
Four universal caster wheels 4 are arranged on the bottom of portal frame body 11, and universal caster wheel can all-around mobile on the ground.
On the basis of embodiment 1, a kind of active phase array antenna debugging system testing jig includes four adjustable support foots
5, four adjustable support foots 5 are arranged on the bottom of portal frame body 11, and adjustable support foot can adjust testing jig entirety
Level height.
Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model
Any modifications, equivalent substitutions and improvements made within the spirit and principle of utility model etc., should be included in the utility model
Protection domain within.
Claims (5)
1. a kind of active phase array antenna debugging system testing jig, it is characterised in that including portal frame component(1), vertical guide rail
Component(2)With horizontal guide rail component(3);
The portal frame component(1)Including portal frame body(11), the first screw mandrel(12), the first sliding block(15), the first rotary shaft
(13)And first handle(14), the portal frame body(11)Left side and right side be respectively equipped with first screw mandrel(12), institute
State the first screw mandrel(12)It is provided with the first sliding block(15)And both form screw pair, the first handle(14)With portal frame body
(11)Left side or right side on the first screw mandrel(12)It is connected, first rotary shaft(13)Two ends respectively pass through one cone tooth
Wheel set and portal frame body(11)Left and right sides on the first screw mandrel(12)It is connected;
The vertical guide rail component(2)Including square frame body(26), the second screw mandrel(22), the second sliding block(23), the second rotary shaft
(24), second handle(25)With cursor type scale reading chi(21);The square frame body(26)Left side and right side are respectively equipped with one
Second screw mandrel(22), second screw mandrel(22)It is provided with the second sliding block(23)And both form screw pair, the second handle
(25)With square frame body(26)Left side or second screw mandrel on right side(22)It is connected and second screw mandrel(22)Pass through a bevel gear pair
With the second rotary shaft(24)It is connected, second rotary shaft(24)Pass through a bevel gear pair and another second screw mandrel(22)Phase
Even, the cursor type scale reading chi(21)It is arranged on square frame body(26)On left side or right side;
The horizontal guide rail component(3)Including crossbeam(31), the 3rd screw mandrel(32), the 3rd sliding block(33)With the 3rd handle(34);
The crossbeam(31)Provided with the 3rd screw mandrel (32), the 3rd screw mandrel (32) is provided with the 3rd sliding block (33) and both shapes
Into screw pair, the 3rd screw mandrel (32) and the 3rd handle(34)Connection, the 3rd sliding block(33)For installing measured piece;
The vertical guide rail component(2)In square frame body left side and right side respectively with portal frame component(1)In portal frame sheet
The first sliding block (15) connection on the left side and right side of body (11), the horizontal guide rail component(3)In crossbeam (31) two ends
Respectively with vertical guide rail component(2)In square frame body (26) left side and right side on the second sliding block (23) connection.
2. active phase array antenna debugging system testing jig as claimed in claim 1, it is characterised in that the first handle
(14)It is arranged on portal frame body(11)Left side or right side on and pass through the first screw mandrel on a bevel gear pair and the side
(12) it is connected.
3. active phase array antenna debugging system testing jig as claimed in claim 1, it is characterised in that the portal frame body
(11)Left side and right side on the first sliding block(15)It is respectively equipped with the square frame body in mounting hole, the vertical guide rail component (2)
(26) left side and right side is respectively equipped with installation axle(27), the square frame body(26)Left side and the installation axle on right side(27)Turn respectively
It is dynamic to be arranged on portal frame body(11)The first sliding block on left side and right side(15)Mounting hole in, set on the installation axle (27)
Put a rotating disk(28), the rotating disk(28)On be provided with multiple positioning holes of circle distribution, first sliding block (15) is provided with one
Locating piece (151), the locating piece (151) is provided with a positioning hole so that an alignment pin (152) can be interspersed in rotating disk simultaneously
(28) in the positioning hole on any positioning hole and locating piece on.
4. the active phase array antenna debugging system testing jig as described in claim 1-3 any one, it is characterised in that including
Four universal caster wheels(4), four universal caster wheels(4)It is arranged on portal frame body(11)Bottom.
5. the active phase array antenna debugging system testing jig as described in claim 1-3 any one, it is characterised in that including
Four adjustable support foots(5), four adjustable support foots(5)It is arranged on portal frame body(11)Bottom.
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CN201621293091.3U CN206584038U (en) | 2016-11-29 | 2016-11-29 | A kind of active phase array antenna debugging system testing jig |
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CN201621293091.3U CN206584038U (en) | 2016-11-29 | 2016-11-29 | A kind of active phase array antenna debugging system testing jig |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108196144A (en) * | 2017-12-18 | 2018-06-22 | 中国北方车辆研究所 | For the antenna mounting platform of the system-level radiated immunity test in outfield |
CN110018237A (en) * | 2019-04-01 | 2019-07-16 | 武汉中科创新技术股份有限公司 | A kind of phased array detection auxiliary device and system |
CN111682300A (en) * | 2020-05-18 | 2020-09-18 | 四川九洲电器集团有限责任公司 | Universal reconfigurable phased array antenna test truss |
CN114200218A (en) * | 2021-11-10 | 2022-03-18 | 昆山浩兴电子科技有限公司 | Antenna performance test stabilising arrangement |
-
2016
- 2016-11-29 CN CN201621293091.3U patent/CN206584038U/en active Active
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108196144A (en) * | 2017-12-18 | 2018-06-22 | 中国北方车辆研究所 | For the antenna mounting platform of the system-level radiated immunity test in outfield |
CN110018237A (en) * | 2019-04-01 | 2019-07-16 | 武汉中科创新技术股份有限公司 | A kind of phased array detection auxiliary device and system |
CN110018237B (en) * | 2019-04-01 | 2022-02-11 | 武汉中科创新技术股份有限公司 | Phased array detection auxiliary device and system |
CN111682300A (en) * | 2020-05-18 | 2020-09-18 | 四川九洲电器集团有限责任公司 | Universal reconfigurable phased array antenna test truss |
CN111682300B (en) * | 2020-05-18 | 2021-03-30 | 四川九洲电器集团有限责任公司 | Universal reconfigurable phased array antenna test truss |
CN114200218A (en) * | 2021-11-10 | 2022-03-18 | 昆山浩兴电子科技有限公司 | Antenna performance test stabilising arrangement |
CN114200218B (en) * | 2021-11-10 | 2023-10-20 | 昆山浩兴电子科技有限公司 | Antenna performance test stabilising arrangement |
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