CN205786874U - A kind of antenna automatic testing equipment - Google Patents

Abstract

The utility model discloses a kind of antenna automatic testing equipment, including connecting gear, induction mechanism, material fetching mechanism, testing agency and controller, antenna to be tested is placed on described connecting gear, described induction mechanism is arranged on the transfer mechanism, described material fetching mechanism is arranged towards connecting gear, described testing agency includes detecting tool and Network Analyzer, material fetching mechanism is slidably disposed between connecting gear and detection tool, described detection tool electrically connects with Network Analyzer, described connecting gear, induction mechanism, material fetching mechanism, detection tool and Network Analyzer electrically connect with described controller respectively.The antenna automatic testing equipment that this utility model provides, can be automatically performed the test to antenna, not only increase testing efficiency, and saved cost of labor, avoids the test error that manual operation error causes simultaneously.

Description

A kind of antenna automatic testing equipment

Technical field

This utility model relates to testing device technique field, particularly relates to a kind of antenna automatic testing equipment.

Background technology

Complete at antenna, before formally coming into operation, need the performance to each antenna to be simulated inspection Surveying, it is qualified only to detect, and just can come into operation.In prior art, the test mode of antenna is the most artificial Test or the semi-automatic test of revolution mode.Use manual testing or semi-automatic test not only testing efficiency relatively low, And cost of labor can be increased.

Utility model content

Technical problem to be solved in the utility model is: the antenna providing a kind of testing efficiency high is tested automatically Device.

In order to solve above-mentioned technical problem, the technical solution adopted in the utility model is:

A kind of antenna automatic testing equipment, including connecting gear, induction mechanism, material fetching mechanism, testing agency And controller, antenna to be tested is placed on described connecting gear, and described induction mechanism is arranged on connecting gear On, described material fetching mechanism is arranged towards connecting gear, and described testing agency includes detecting tool and analysis of network Instrument, material fetching mechanism is slidably disposed between connecting gear and detection tool, described detection tool and network Analyser electrically connects, described connecting gear, induction mechanism, material fetching mechanism, detection tool and Network Analyzer Electrically connect with described controller respectively.

Further, described testing agency also includes radio-frequency (RF) switch, and described Network Analyzer passes through described radio frequency Switch electrically connects with described detection tool.

Further, described detection tool includes upper die and lower die, actuator and test suite, described upper mold Being positioned at the top of lower mold, described actuator drives upper mold to move along upper mold to the direction of lower mold, and lower mold is provided with Holding tank, described test suite electrically connects with described Network Analyzer, and actuator electrically connects with described controller.

Further, also including mounting mechanism, described connecting gear includes initial end and clearing end, described at the beginning of Top and clearing end are arranged along the direction of motion of connecting gear the most successively, and described attachment mechanism is arranged on described The initial end of connecting gear.

Further, also include that code reader, described code reader are arranged towards described connecting gear, code reader with Described controller electrically connects.

Further, also include that carrier, described carrier are arranged on described connecting gear, described sky to be tested Line is arranged on described carrier.

Further, described induction mechanism is sensor.

Further, described connecting gear includes the first conveyer belt, the second conveyer belt, the 3rd conveyer belt, drives Dynamic assembly and induction apparatus, described first conveyer belt and the 3rd conveyer belt be arranged in parallel and the first conveyer belt and the 3rd The direction of motion of conveyer belt is contrary, and the second conveyer belt is arranged between the first conveyer belt and the 3rd conveyer belt, institute State driving assembly and induction apparatus is separately positioned on the first conveyer belt and the infall of the second conveyer belt, drive assembly Electrically connect with induction apparatus.

The beneficial effects of the utility model are: by connecting gear, induction mechanism, material fetching mechanism, detection Mechanism and the cooperation of controller, be automatically performed and pick and place antenna and test, saved cost of labor, it is to avoid Manual operation is slipped up the test error caused；Induction mechanism is arranged on the transfer mechanism, can be to connecting gear On antenna to be tested carry out precise positioning, material fetching mechanism be slidably disposed on connecting gear and detection tool Between, facilitate material fetching mechanism to carry out feeding, accelerate the speed of whole test, improve testing efficiency.

Accompanying drawing explanation

Fig. 1 is the structural representation of the antenna automatic testing equipment of this utility model embodiment；

Fig. 2 is the structural representation of the measurement jig of the antenna automatic testing equipment of this utility model embodiment. Label declaration:

1, connecting gear；11, the first conveyer belt；12, the second conveyer belt；13, the 3rd conveyer belt；14、 Drive assembly；15, induction apparatus；2, induction mechanism；3, material fetching mechanism；4, testing agency；41, detection Tool；411, upper mold；412, lower mold；4121, holding tank；413, actuator；414, test suite； 42, Network Analyzer；43, radio-frequency (RF) switch；5, attachment mechanism；6, code reader；7, carrier.

Detailed description of the invention

By describing technology contents of the present utility model, structural feature in detail, being realized purpose and effect, below In conjunction with embodiment and coordinate accompanying drawing to be explained in detail.

The design of this utility model most critical is: arrange induction mechanism, can treat test antenna and carry out precisely Location and feeding, improve testing efficiency, saved cost of labor.

Refer to Fig. 1 and Fig. 2, a kind of antenna automatic testing equipment, including connecting gear 1, induction mechanism 2, Material fetching mechanism 3, testing agency 4 and controller, antenna to be tested is placed on described connecting gear 1, described Induction mechanism 2 is arranged on connecting gear 1, and described material fetching mechanism 3 is arranged towards connecting gear 1, described Testing agency 4 includes detecting tool 41 and Network Analyzer 42, and material fetching mechanism 3 is slidably disposed on transmission Between mechanism 1 and detection tool 41, described detection tool 41 electrically connects with Network Analyzer 42, described biography Send mechanism 1, induction mechanism 2, material fetching mechanism 3, detection tool 41 and Network Analyzer 42 respectively with described Controller electrically connects.

Knowable to foregoing description, the beneficial effects of the utility model are: by connecting gear, induction mechanism, The cooperation of material fetching mechanism, testing agency and controller, is automatically performed and picks and places antenna and test, save Cost of labor, it is to avoid manual operation is slipped up the test error caused；Induction mechanism is arranged on the transfer mechanism, Antenna to be tested on connecting gear can be carried out precise positioning, material fetching mechanism is slidably disposed on conveyer Between structure and detection tool, facilitate material fetching mechanism to carry out feeding, accelerate the speed of whole test, improve Testing efficiency.

Further, described testing agency 4 also includes that radio-frequency (RF) switch 43, described Network Analyzer 42 pass through institute State radio-frequency (RF) switch 43 to electrically connect with described detection tool 41.

Seen from the above description, Network Analyzer can be divided into multiple port by radio-frequency (RF) switch, can be simultaneously to many The performance of individual antenna is tested, and improves testing efficiency.

Further, described detection tool 41 includes upper mold 411, lower mold 412, actuator 413 and test Assembly 414, described upper mold 411 is positioned at the top of lower mold 412, and described actuator 413 drives upper mold 411 edge The direction of upper mold 411 to lower mold 412 is moved, and lower mold 412 is provided with holding tank 4121, described test suite 414 electrically connect with described Network Analyzer 42, and actuator 413 electrically connects with described controller.

Seen from the above description, during test, antenna to be tested is placed in holding tank, in actuator driving Mould moves downward, and makes test suite and sky to be tested linear contact lay and completes test, and test result is divided by network Analyzer sends controller to.

Further, also including mounting mechanism 5, described connecting gear 1 includes initial end and clearing end, described Initial end and clearing end are arranged along the direction of motion of connecting gear 1 the most successively, and described attachment mechanism 5 is arranged Initial end at described connecting gear 1.

Further, also include that code reader 6, described code reader 6 are arranged towards described connecting gear 1, barcode scanning Device 6 electrically connects with described controller.

Seen from the above description, attachment mechanism and code reader are set, in order to reach to review original test data Purpose.

Further, also include that carrier 7, described carrier 7 are arranged on described connecting gear 1, described to be measured Examination antenna is arranged on described carrier 7.

Seen from the above description, a carrier can be placed multiple antenna to be tested, make material fetching mechanism inhale simultaneously Take multiple antenna to be tested, improve testing efficiency.

Further, described induction mechanism 2 is sensor.

Further, described connecting gear 1 includes first conveyer belt the 11, second conveyer belt the 12, the 3rd transmission Band 13, driving assembly 14 and induction apparatus 15, described first conveyer belt 11 is parallel with the 3rd conveyer belt 13 to be set Putting and the first conveyer belt 11 is contrary with the direction of motion of the 3rd conveyer belt 13, the second conveyer belt 12 is arranged on Between one conveyer belt 11 and the 3rd conveyer belt 13, described driving assembly 14 and induction apparatus 15 are separately positioned on First conveyer belt 11 and the infall of the second conveyer belt 12, drives assembly 14 to electrically connect with induction apparatus 15.

Seen from the above description, during transmission, antenna to be tested is placed on carrier, the sky to be tested on carrier After line is taken away by material fetching mechanism, zero load tool need to be passed back, the first conveyer belt and the direction of motion of the 3rd conveyer belt On the contrary, the second conveyer belt is arranged between the first conveyer belt and the 3rd conveyer belt, and carrier moves to the first transmission When carrying the infall with the second conveyer belt, driving assembly to be pushed to by carrier on the second conveyer belt, carrier moves After the end of the second conveyer belt, enter back into the 3rd conveyer belt, passed back by the 3rd conveyer belt.

Refer to Fig. 1 and Fig. 2, embodiment one of the present utility model is:

A kind of antenna automatic testing equipment, including connecting gear 1, induction mechanism 2, material fetching mechanism 3, detection Mechanism 4, controller, attachment mechanism 5, code reader 6 and carrier 7.

Connecting gear 1 includes first conveyer belt the 11, second conveyer belt the 12, the 3rd conveyer belt 13, drives assembly 14 and induction apparatus 15, the first conveyer belt 11 and the 3rd conveyer belt 13 be arranged in parallel and the first conveyer belt 11 with The direction of motion of the 3rd conveyer belt 13 is contrary, and the second conveyer belt 12 is arranged on the first conveyer belt 11 and the 3rd biography Send between band 13, drive assembly 14 and induction apparatus 15 to be separately positioned on the first conveyer belt 11 and second and transmit With the infall of 12, assembly 14 is driven to electrically connect with induction apparatus 15.Antenna to be tested is arranged on carrier 7, Carrier 7 is arranged on connecting gear 1.

Induction mechanism 2 is sensor, and sensor is arranged on the first conveyer belt 11 and towards the first conveyer belt 11 Arrange.Material fetching mechanism 3 is mechanical hand, and mechanical hand is arranged towards connecting gear 1, and testing agency 4 includes inspection Measurement fixture 41, Network Analyzer 42 and radio-frequency (RF) switch 43, mechanical hand is slidably disposed on connecting gear 1 With between detection tool 41, mechanical hand is for capturing the antenna to be tested on carrier 7.Network Analyzer 42 Being divided into multiple port by radio-frequency (RF) switch 43, radio-frequency (RF) switch 43 is electrically connected with detection tool 41 by coaxial cable Connecing, connecting gear 1, induction mechanism 2, material fetching mechanism 3, detection tool 41 and Network Analyzer 42 are respectively It is electrically connected with the controller.

Detection tool 41 includes upper mold 411, lower mold 412, actuator 413 and test suite 414, upper mold 411 tops being positioned at lower mold 412, actuator 413 drives upper mold 411 along the side of upper mold 411 to lower mold 412 To movement, lower mold 412 is provided with holding tank 4121, and test suite 414 electrically connects with Network Analyzer 42, Actuator 413 is electrically connected with the controller.After Network Analyzer 42 is divided into multiple port by radio-frequency (RF) switch 43, Testing agency 4 can test the performance of multiple antenna simultaneously.Multiple antenna, machine can be placed on one carrier 7 Tool arranges multiple suction nozzle on hand, and the multiple antenna to be tested of primary sorption is placed on the holding tank 4121 of testing agency 4 In.Test suite 414 includes test board and probe, and probe electrically connects with test board, and test board is opened with radio frequency Closing 43 electrical connections, the bottom of holding tank 4121 is provided with through hole, and probe is arranged in described through hole.

Connecting gear 1 includes that initial end and clearing end, initial end and clearing end are respectively successively along connecting gear 1 The direction of motion arrange.Attachment mechanism 5 is arranged on the initial end of connecting gear 1, is i.e. arranged on the first transmission With the initial end of 11.Code reader 6 is arranged towards connecting gear 1, and code reader 6 is electrically connected with the controller.? Operative position, after being placed on carrier 7 by antenna to be tested, by attachment, mechanism 5 mounts bar code, then Enter the first conveyer belt 11, after the sensor sensing being arranged on the first conveyer belt 11 to carrier 7, code reader 6 bar codes treated on test antenna are scanned, and mechanical hand captures antenna to be tested and is placed on detection simultaneously Detect in mechanism 4.Empty carrier 7 continues motion on the first conveyer belt 11, moves to the first transmission With 11 and during second infall of conveyer belt 12, induction apparatus 15 senses carrier 7, drives assembly 14 to drive Carrier 7 enters the second conveyer belt 12, then enters back into the 3rd conveyer belt 13, by the 3rd conveyer belt 13 Transmit, make carrier 7 finally return to operative position.Driving assembly 14 can be cylinder, is promoted by the push rod of cylinder Carrier 7 enters the second conveyer belt 12.After testing agency 4 tests, gather the test on Network Analyzer 42 Data judge, the product of test passes is captured and be placed on the qualified district of product by mechanical hand；Test does not conforms to The product of lattice, is captured and is placed on the defective district of product by mechanical hand.

In sum, the antenna automatic testing equipment that this utility model provides, the survey to antenna can be automatically performed Examination, not only increases testing efficiency, and has saved cost of labor, avoids manual operation error simultaneously and leads The test error caused.

The foregoing is only embodiment of the present utility model, not thereby limit the scope of the claims of the present utility model, Every equivalents utilizing this utility model description and accompanying drawing content to be made, or be directly or indirectly used in Relevant technical field, is the most in like manner included in scope of patent protection of the present utility model.

Claims (8)

1. an antenna automatic testing equipment, it is characterised in that include connecting gear, induction mechanism, feeding Mechanism, testing agency and controller, antenna to be tested is placed on described connecting gear, described induction mechanism Arranging on the transfer mechanism, described material fetching mechanism is arranged towards connecting gear, and described testing agency includes detection Tool and Network Analyzer, material fetching mechanism is slidably disposed between connecting gear and detection tool, described Detection tool electrically connects with Network Analyzer, and described connecting gear, induction mechanism, material fetching mechanism, detection are controlled Tool and Network Analyzer electrically connect with described controller respectively.

Antenna automatic testing equipment the most according to claim 1, it is characterised in that described testing agency Also including radio-frequency (RF) switch, described Network Analyzer is electrically connected with described detection tool by described radio-frequency (RF) switch.

Antenna automatic testing equipment the most according to claim 1, it is characterised in that described detection tool Including upper die and lower die, actuator and test suite, described upper mold is positioned at the top of lower mold, described actuator Driving upper mold to move along upper mold to the direction of lower mold, lower mold is provided with holding tank, and described test suite is with described Network Analyzer electrically connects, and actuator electrically connects with described controller.

Antenna automatic testing equipment the most according to claim 1, it is characterised in that also include placement equipment Structure, described connecting gear includes that initial end and clearing end, described initial end and clearing end are the most successively along transmitting The direction of motion of mechanism is arranged, and described attachment mechanism is arranged on the initial end of described connecting gear.

Antenna automatic testing equipment the most according to claim 1, it is characterised in that also include code reader, Described code reader is arranged towards described connecting gear, and code reader electrically connects with described controller.

Antenna automatic testing equipment the most according to claim 1, it is characterised in that also include carrier, Described carrier is arranged on described connecting gear, and described antenna to be tested is arranged on described carrier.

Antenna automatic testing equipment the most according to claim 1, it is characterised in that described induction mechanism For sensor.

Antenna automatic testing equipment the most according to claim 1, it is characterised in that described connecting gear Including the first conveyer belt, the second conveyer belt, the 3rd conveyer belt, driving assembly and induction apparatus, described first passes Send band to be arranged in parallel with the 3rd conveyer belt and the direction of motion of the first conveyer belt and the 3rd conveyer belt is contrary, second Conveyer belt is arranged between the first conveyer belt and the 3rd conveyer belt, and described driving assembly and induction apparatus are respectively provided with At the first conveyer belt and the infall of the second conveyer belt, assembly is driven to electrically connect with induction apparatus.