CN207198269U - Reactor on-line checking automation equipment - Google Patents

Abstract

The utility model provides a kind of reactor on-line checking automation equipment, it includes control module, frame, transport mechanism and testing agency, the transport mechanism and testing agency are connected with control module respectively, frame includes delivery platform and detection frame, the delivery platform is below detection frame, the transport mechanism is on delivery platform, testing agency is in detection frame, the testing agency includes megger test unit, voltage-withstand test unit and performance test unit, the megger test unit, voltage-withstand test unit and performance test unit are spaced in the same direction, reactor moves on delivery platform with transport mechanism and passes through megger test unit respectively, voltage-withstand test unit and performance test unit are detected；The utility model in each detection unit set a to frame, will greatly save manual labor, while utilize machine automatic detection, ensure that the accuracy of detection, improve detection efficiency and detection quality.

Description

Reactor on-line checking automation equipment

Technical field

Electric performance test technical field is the utility model is related to, a kind of reactor on-line checking automation is related generally to and sets It is standby.

Background technology

Reactor is the critical component of air-conditioning, the quality of its quality, directly influences the performance of product.The test of reactor Project is more, and especially reactor is intimate will carry out electrical strength experiment between coil.

At present, the operation of reactor is tested typically by artificial manual operations, because in test process, there is strong voltage Input, the personal safety of the careless slightly testing staff that will be injured；Meanwhile manual inspection can not only influence the effect of detection Rate, waste time and energy, and it detects quality and easily disturbed by human factor, and reliability is poor.

Utility model content

Reactor on-line checking automation equipment, it includes control module, frame, transport mechanism and testing agency, described Transport mechanism and testing agency are connected with control module respectively, and the frame includes delivery platform and detection frame, the conveying Platform is below detection frame, and the transport mechanism is on delivery platform, and the testing agency is in detection frame, institute Stating testing agency includes megger test unit, voltage-withstand test unit and performance test unit, the megger test list Member, voltage-withstand test unit and performance test unit are spaced in the same direction, and reactor moves with transport mechanism on delivery platform And detected respectively by megger test unit, voltage-withstand test unit and performance test unit；The insulaion resistance is surveyed The setting order of examination unit, voltage-withstand test unit and performance test unit does not limit, and can be exchanged according to actual conditions.

Compared with prior art, reactor on-line checking automation equipment provided by the utility model, it is single by each detection Member is gathered onto a frame, it is possible to achieve automatic detection, reactor need to only be put to the delivery end of transport mechanism, Bian Ketong The automatic detection one by one that control module controlling equipment carries out performance needed for items to reactor is crossed, greatlys save hand labor Power, while machine automatic detection is utilized, the accuracy of detection is ensure that, improves detection efficiency and detection quality.

Preferably, the megger test unit, voltage-withstand test unit and performance test unit are arranged with spacing W in the same direction Row, the reactor is as transport mechanism is placed on delivery platform with spacing W and is moved forward with step pitch W so that conveyer Structure, which often moves forward, once can guarantee that tested reactor is located in one of below test cell.

Preferably, the transport mechanism includes guide rail cylinder, sliding block and guide rail, and guide rail is fixed on delivery platform, sliding block On the downside of guide rail, the guide rail cylinder is connected with sliding block, and the guide rail cylinder promotes sliding block reciprocating on guide rail；Institute State sliding block and be provided with some pushing blocks being placed equidistant, pushing block passage is provided with the middle part of the guide rail, the pushing block is that unidirectional elasticity pushes away Block, it is designed to can be to elastic compression on the downside of pushing block passage, and the front side of the pushing block is push and block face, is set on rear side of the pushing block For inclined-plane, so as to can equidistantly promote reactor during pushing block positive movement, during counter motion the inclined-plane of pushing block touch reactor to Lower compression passes through on the downside of reactor.

Preferably, the transport mechanism also includes some positioning boards, and the positioning board is placed on guide rail can Along guide rail direction activity, the reactor is placed on positioning board, and pushing block promotes positioning board equidistant along guide rail direction It is mobile.

Preferably, the megger test unit includes Insulation Resistance Tester and the first detection station, and described first Detection station includes the first support frame, first sensor, the first cylinder and the first test section；First support frame is fixed at In frame, the first sensor is fixed on the first support frame sidepiece, and first cylinder is fixed on the first support frame, described First cylinder is connected with the first test section, and first test section is made reciprocal by vertical direction of first cylinder along delivery platform Motion, first test section electrically connect with the Insulation Resistance Tester；First test section includes first input end, the One earth terminal and the first fixed mount, the first input end and the first earth terminal are fixed on the first fixed mount, and described first is solid Determine frame to connect by first connecting rod and the first cylinder, when first sensor detects reactor, the first cylinder promotes the first inspection Survey portion is moved down so that first input end is connected with the input/output terminal of tested reactor, the first earth terminal and tested reactance The metal shell connection of device；The insulaion resistance of the tested reactor of Insulation Resistance Tester test.

Preferably, the voltage-withstand test unit includes Hi-pot Tester and the second detection station, second detection station Including the second support frame, second sensor, the second cylinder and the second test section；Second support frame is fixed in frame, The second sensor is fixed on the second support frame sidepiece, and second cylinder is fixed on the second support frame, second gas Cylinder is connected with the second test section, and second test section is reciprocating along the vertical direction of delivery platform by the second cylinder, Second test section electrically connects with the Hi-pot Tester；Second test section includes the second input, the second earth terminal With the second fixed mount, second input and the second earth terminal are fixed on the second fixed mount, and second fixed mount passes through Second connecting rod and the connection of the second cylinder；When second sensor detects reactor, the second cylinder promotes the second test section downward It is mobile so that the second input is connected with the input/output terminal of tested reactor, the metal of the second earth terminal and tested reactor Cage connection；The compressive resistance of the tested reactor of Hi-pot Tester test.

Preferably, the performance test unit includes reactor characteristic tester and the 3rd detection station, the 3rd inspection Surveying station includes the 3rd support frame, 3rd sensor, the 3rd cylinder and the 3rd test section；3rd support frame is fixed at machine On frame, the 3rd sensor is fixed on the 3rd support frame sidepiece, and the 3rd cylinder is fixed on the 3rd support frame, and described Three cylinders are connected with the 3rd test section, and the 3rd test section makees reciprocal fortune by vertical direction of the 3rd cylinder along delivery platform Dynamic, the 3rd test section electrically connects with the reactor characteristic tester；3rd test section includes the 3rd input, the Three earth terminals and third fixed frame, the 3rd input and the 3rd earth terminal are fixed in third fixed frame, and the described 3rd is solid Determine frame to connect by third connecting rod and the 3rd cylinder；When 3rd sensor detects reactor, the 3rd cylinder promotes the 3rd inspection Survey portion is moved down so that the 3rd input is connected with the input/output terminal of tested reactor, the 3rd earth terminal and tested reactance The metal shell connection of device；The rated voltage and rated current of the tested reactor of reactor ability meter test.

Preferably, the megger test unit, voltage-withstand test unit and performance test cell side portion correspond to set respectively Have the first detection indicator lamp, second detection indicator lamp and the 3rd detection indicator lamp, its respectively correspond to megger test unit, Voltage-withstand test unit connects with performance test unit, sets detection indicator lamp to contribute to testing staff directly to judge that detecting product is It is no qualified；The megger test unit, voltage-withstand test unit and performance test unit respectively also include the first starter, Second starter and the 3rd starter, three starters are connected with control module respectively, facilitate testing staff taking away After substandard product, detection device is restarted.

Further, in addition to located at the automatic labeling mechanism located at transport mechanism output end, it includes automatic labeling machine With the 4th sensor, the 4th sensor on the automatic labeling machine, the 4th sensor and automatic labeling machine respectively with control Module connects, and it is used to label reactor；Automatic labeling is carried out to detecting qualified reactor, realizes " detection+patch The automatic production of mark " integration.

The utility model also provides a kind of detection method of reactor on-line checking automation equipment, and its step includes：

S1. tested reactor is placed on the positioning board on guide rail, starting device, control module control guide rail gas Cylinder promotes sliding block to be travelled forward on delivery platform, and reactor is driven forward under the promotion of pushing block of the positioning board on sliding block It is mobile；

S2. reactor is moved to reach below megger test unit with sliding block, and first sensor detects tested Control module is sent a signal to after reactor, control module sends test instruction to Insulation test unit, starts insulaion resistance and surveys Instrument is tried, while the first cylinder promotes the first test section to move down so that the input of first input end and tested reactor winding Output end connects, and the first earth terminal contacts with the metal shell of tested reactor, the tested reactor of Insulation Resistance Tester test Insulaion resistance；

If for the insulaion resistance of detection in the range of presetting, control module moves forward control slide block again；If Detect unqualified, then control module control slide block is out of service.

S3. reactor is moved to reach below voltage-withstand test unit with sliding block, and second sensor detects tested reactance Control module is sent a signal to after device, while control module sends test instruction to Insulation test unit, starts Hi-pot Tester, The second cylinder promotes the second test section to move down simultaneously so that the input/output terminal of the second input and tested reactor winding Connection, the second earth terminal contact with the metal shell of tested reactor, the compressive resistance of the tested reactor of Hi-pot Tester test；

If for the pressure voltage of detection in the range of presetting, control module moves forward control slide block again；If inspection Survey unqualified, then control module control slide block is out of service；

S4. reactor moving to reach below performance test unit with sliding block, 3rd sensor detect tested electricity Control module is sent a signal to after anti-device, control module sends test instruction to performance test unit, and starting reactor characteristic is surveyed Instrument is tried, and controls the 3rd cylinder to promote the 3rd test section to move down simultaneously so that the 3rd input is defeated with tested reactor Enter output end connection, the 3rd earth terminal contacts with the metal shell of tested reactor, the tested electricity of reactor ability meter test The rated voltage and rated current of anti-device；

If the compound standard set in advance of parameter of detection, control module continue to move along control slide block；If detection Not compound standard, then molding block control slide block is out of service.

Compared with prior art, the detection method of reactor on-line checking automation equipment provided by the utility model, its Transported with sliding block, item by item the mode of automatic detection, realize the automatic detection to reactor, replace by hand, enhancing with machinery The automation of production, improves detection efficiency.

Further, in addition to automatic labeling step S5, after the completion of S4 steps, if reactor detection is qualified, mould is controlled Block control control slide block continues to move along, and reactor moves to reach automatic labeling mechanism position, the 4th sensor with sliding block Control module is sent a signal to after sensing tested reactor, control module controls automatic labeling machine to carry out qualified reactor Labeling.

Brief description of the drawings

Fig. 1 is the schematic diagram of the utility model on-line checking automation equipment；

Fig. 2 is the side view of the test section of the utility model first (the second test section/the 3rd test section)；

Fig. 3 is the structural representation of the utility model automatic labeling module section.

Embodiment

Below in conjunction with a kind of brief description of the drawings preferred embodiment of the present utility model.

Referring to Fig. 1 to Fig. 3, reactor on-line checking automation equipment, it includes control module (not indicated in figure), electronic box 1st, frame 2, transport mechanism 3 and testing agency 4, the electronic box 1, transport mechanism 3 and testing agency 4 connect with control module respectively Connect, the electronic box 1 is fixed on support 2, and the frame 2 includes delivery platform 201 and detection frame 202, and the sidepiece of frame 2 is set There is test sample storage area 203, the delivery platform 201 is positioned at the lower section of detection frame 202, and the transport mechanism 3 is located at conveying On platform 201, in detection frame 202, the testing agency 4 includes megger test unit for the testing agency 4 401st, voltage-withstand test unit 402 and performance test unit 403, the megger test unit 401, voltage-withstand test unit 402 With 3 directions of motion arrangement of the performance test unit 403 along conveyor module, reactor is as transport mechanism 3 is in delivery platform 201 Upper movement is simultaneously carried out correspondingly by megger test unit 401, voltage-withstand test unit 402 and performance test unit 403 respectively Detection, the megger test unit 401, voltage-withstand test unit 402 and performance test unit 403 in the same direction with spacing W arrange Row, reactor are tested as transport mechanism 3 is placed on delivery platform 201 with spacing W and is moved forward with step pitch W so that pass Send mechanism 3 often to move forward and once can guarantee that tested reactor is located in one of below test cell；The insulaion resistance The setting order of test cell 401, voltage-withstand test unit 402 and performance test unit 403 does not limit, can be according to actual conditions Exchanged.

Compared with prior art, reactor on-line checking automation equipment provided by the utility model, it is single by each detection Member is gathered onto a frame, it is possible to achieve automatic detection, reactor need to only be put to the delivery end of transport mechanism, Bian Ketong The automatic detection one by one that control module controlling equipment carries out performance needed for items to reactor is crossed, greatlys save hand labor Power, while machine automatic detection is utilized, the accuracy of detection is ensure that, improves detection efficiency and detection quality.

Referring to Fig. 1, preferably, the transport mechanism 3 includes guide rail cylinder (not indicated in figure), sliding block (in figure Do not indicate), guide rail 301 and some positioning boards (not indicated in figure), guide rail 301 be fixed on delivery platform 201, sliding block is set In the downside of guide rail 301, the guide rail cylinder is connected with sliding block, and the guide rail cylinder promotes sliding block to make reciprocal fortune on guide rail 301 It is dynamic；Several pushing blocks 302 are equidistantly provided with the sliding block, the middle part of guide rail 301 is provided with pushing block passage 311, the pushing block 302 For unidirectional elastic pushing block, it is designed to can be to the downside elastic compression of 302 passage of pushing block 311, and the front side of the pushing block is push and block Face, inclined-plane is set on rear side of the pushing block, so as to can equidistantly promote reactor during 302 positive movement of pushing block, during counter motion The inclined-plane touching reactor compression downwards of pushing block 302 from the downside of reactor by, pushing block 302 bullet again after reactor Rise.Pass through said structure, it is possible to achieve the unidirectional equidistant propulsion of reactor.Above-mentioned " forward direction " refers to tested reactor detection fortune Dynamic direction, and " reverse " refers to the opposite direction of tested reactor detection motion；The positioning board is placed on can on guide rail 301 Along the activity of the direction of guide rail 301, tested reactor is placed on positioning board, and pushing block promotes positioning board along the side of guide rail 301 To equidistant movement.

Referring to Fig. 1 and Fig. 2, preferably, the megger test unit 401 includes Insulation Resistance Tester 411 and first detection station, first detection station include the first support frame 412, first sensor 413, the first cylinder 414 and first test section (not indicated in figure)；First support frame 412 is fixed in frame 2, the first sensor 413 are fixed on the sidepiece of the first support frame 412, and first cylinder 414 is fixed on the first support frame 412, first cylinder 414 are connected with the first test section, and first test section is made past by vertical direction of first cylinder 414 along delivery platform 201 Multiple motion, first test section electrically connect with the Insulation Resistance Tester 411；First test section includes the first input The 415, first earth terminal 416 of end and the first fixed mount 417, the earth terminal 416 of first input end 414 and first are fixed on first On fixed mount 417, first fixed mount 417 is connected by the cylinder 414 of first connecting rod 418 and first；When first sensor 413 When detecting reactor, the first cylinder 414 promotes the first test section to move down so that first input end 415 and tested reactance The input/output terminal connection of device coil, the first earth terminal 416 are connected with the metal shell of tested reactor；Insulation Resistance Tester The insulaion resistance of the tested reactor of 411 tests.

Referring to Fig. 1 and Fig. 2, the voltage-withstand test unit 402 includes the detection station of Hi-pot Tester 421 and second, described Second detection station (is not marked including the second support frame 422, second sensor 423, the second cylinder 424 and the second test section in figure Show)；Second support frame 422 is fixed in frame 2, and the second sensor 423 is fixed on the side of the second support frame 422 Portion, second cylinder 424 are fixed on the second support frame 422, and second cylinder 424 is connected with the second test section, described Second test section is reciprocating by vertical direction of second cylinder 424 along delivery platform 201, second test section and institute Hi-pot Tester 421 is stated to electrically connect；Second test section includes the second input 425, the second earth terminal 426 and second is fixed Frame 427, the earth terminal 426 of the second input 425 and second are fixed on the second fixed mount 427, second fixed mount 427 Connected by the cylinder 424 of second connecting rod 428 and second；When second sensor 423 detects reactor, the second cylinder 424 pushes away Dynamic second test section is moved down so that the second input 425 is connected with the input/output terminal of tested reactor winding, and second connects Ground terminal 426 is connected with the metal shell of tested reactor；The compressive resistance of the tested reactor of the test of Hi-pot Tester 421.

Referring to Fig. 1 and Fig. 2, the performance test unit 403 includes reactor characteristic tester 431 and the 3rd and detects work Position, the 3rd detection station include the 3rd support frame 432,3rd sensor 433, the 3rd cylinder 434 and the 3rd test section (figure In do not indicate)；3rd support frame 432 is fixed in frame 2, and the 3rd sensor 433 is fixed on the 3rd support frame 432 sidepieces, the 3rd cylinder are fixed on the 3rd support frame 432, and the 3rd cylinder 434 is connected with the 3rd test section, institute It is reciprocating by vertical direction of the 3rd cylinder 434 along delivery platform 201 to state the 3rd test section, the 3rd test section with The reactor characteristic tester 431 electrically connects；3rd test section includes the 3rd input 435, the and of the 3rd earth terminal 436 Third fixed frame 437, the 3rd input 435 and the 3rd earth terminal 436 are fixed in third fixed frame 437, and the described 3rd Fixed mount 437 is connected by third connecting rod 438 with the 3rd cylinder；When 3rd sensor 433 detects reactor, the 3rd cylinder 434 the 3rd test sections of promotion move down so that and the 3rd input 435 is connected with the input/output terminal of tested reactor winding, 3rd earth terminal 436 is connected with the metal shell of tested reactor；The tested reactor of the test of reactor ability meter 431 Rated voltage and rated current.

Referring to Fig. 2, first support frame 412, the second support frame 422 and the 3rd support frame 432 are in n-type, convenient tested Reactor passes through.

Referring to Fig. 1, as improvement project, in addition to the automatic labeling mechanism 5 of the output end of transport mechanism 3 is located at, it includes The sensor 502 of automatic labeling machine 501 and the 4th, the 4th sensor 502 is on automatic labeling machine 501, the 4th sensor 502 and automatic labeling machine 501 be connected respectively with control module, it is used to label reactor；To detecting qualified reactance Device carries out automatic labeling, realizes the automatic production of " detection+labeling " integration.

Referring to Fig. 1 and Fig. 3, the automatic labeling machine 501 includes the fixed mount 51 perpendicular to reactor moving direction, and The motor that the first roller 52, the second roller 53, the second roller 53 of driving being arranged on fixed mount 51 rotate (is not marked in figure Show), directive wheel 58, guide plate 54, adsorbent equipment 55, printing equipment 56 and the guiding mechanism 57 being arranged on guide plate 54, The roller 53 of first roller 52 and second is longitudinally arranged, and first roller 52 is located at the top of the second roller 53, described to lead Laterally it is located to plate 54 between the first roller 52 and the second roller 53, the directive wheel 58 is located at the roller 52 of guide plate 54 and first Between, for the one end of label paper 59 on the first roller 52, the other end first passes around the directive wheel 58, then passes through Guiding machine Structure 57 simultaneously bypasses guide plate 54, is finally wound up on the second roller 53, and the motor drives the second roller 53 to rotate and realized The replacing of label paper 59, the upside that the fixed mount 51 is located at guide plate 54 are provided with the laterally direction extension to delivery platform 201 Labeling guide rail 51a, it is upper and can be along labelling guide rail 51a to delivery platform that the adsorbent equipment 55 is arranged on labeling guide rail 51a 201 direction activity, the adsorbent equipment 55 and printing equipment 56 are longitudinally arranged and perpendicular to guide plates 54, by adsorbent equipment 55 sides moved to delivery platform 201 are defined as front side, and opposite side is defined as rear side, and the printing equipment 56 is arranged on The rear side of adsorbent equipment 55, the printing equipment 56 include the 4th cylinder 56a being arranged on fixed mount 51, and installed in the Print head 56b, the 4th cylinder 56a in four cylinder 56a output ends drive print head 56b to be moved to the direction of label paper 59 Realize printing, subsequent adsorbent equipment 55 adsorbs label and mobile to the reactor being placed on delivery platform 201 and pasted Mark operation.

Preferably, surveyed referring to Fig. 1, the megger test unit 401, voltage-withstand test unit 402 and performance The examination sidepiece of unit 403 is correspondingly provided with the first detection indicator lamp 419, second detection indicator lamp 429 and the 3rd and detects indicator lamp respectively 439, it corresponds to be connected with megger test unit 401, voltage-withstand test unit 402 and performance test unit 403 respectively, sets Detection indicator lamp contributes to testing staff directly to judge whether detection product is qualified, it is preferred that if detection is qualified, detects indicator lamp Show green light；If detection is unqualified, detection indicator lamp shows red light.Preferably, above-mentioned megger test unit 401, pressure-resistant Test cell 402 and performance test unit 403 attach an alarm (not indicated in figure) respectively, unqualified in the project of detection When, corresponding alarm has sound prompting.

Preferably, the megger test unit 401, voltage-withstand test unit 402 and performance test unit 403 Also include the first starter 410, the second starter 420 and the 3rd starter 430 respectively, three starters respectively with Control module connects, and facilitates testing staff after substandard product is taken away, restarts detection device.

The utility model also provides a kind of detection method using above-mentioned reactor on-line checking automation equipment, its step Including：

S1. tested reactor is placed on the positioning board on guide rail 301, starting device, control module control is led Rail cylinder promotes sliding block to be travelled forward on delivery platform 201, is driven under the promotion of pushing block 302 of the positioning board on sliding block Reactor moves forward；

S2. reactor moves to reach the lower section of megger test unit 401 with sliding block, and first sensor 413 detects Control module is sent a signal to after tested reactor, control module sends test instruction to Insulation test unit, starts insulation Resistance meter 411, while the first cylinder 414 promotes the first test section to move down so that first input end 415 and tested electricity The input/output terminal connection of anti-device coil, the first earth terminal 416 contact with the metal shell of tested reactor, megger test The insulaion resistance of the tested reactor of the test of instrument 411；

If for the insulaion resistance of detection in the range of presetting, control module moves forward control slide block again；If Detect unqualified, then control module control slide block is out of service.

S3. reactor moves to reach the lower section of voltage-withstand test unit 402 with sliding block, and second sensor 423 detects tested Control module is sent a signal to after examination reactor, while control module sends test instruction to Insulation test unit, starts pressure-resistant Tester 421, while the second cylinder 424 promotes the second test section to move down so that the second input 425 and tested reactor The input/output terminal connection of coil, the second earth terminal 426 are contacted with the metal shell of tested reactor, and Hi-pot Tester 421 is surveyed The compressive resistance of the tested reactor of examination；

If for the pressure voltage of detection in the range of presetting, control module moves forward control slide block again；If inspection Survey unqualified, then control module control slide block is out of service；

S4. reactor moving to reach the lower section of performance test unit 403 with sliding block, 3rd sensor 433 detect by Control module is sent a signal to after test reactor, control module sends test instruction, starting reactance to performance test unit 403 Device characteristic tester 431, and control the 3rd cylinder 434 to promote the 3rd test section to move down simultaneously so that the 3rd input 435 It is connected with the input/output terminal of tested reactor, the 3rd earth terminal 436 contacts with the metal shell of tested reactor, reactor The rated voltage and rated current of the tested reactor of the energy test of tester 431；

If the compound standard set in advance of parameter of detection, control module continue to move along control slide block；If detection Not compound standard, then molding block control slide block is out of service.

Compared with prior art, the detection method of reactor on-line checking automation equipment provided by the utility model, its Transported with sliding block, item by item the mode of automatic detection, realize the automatic detection to reactor, replace by hand, enhancing with machinery The automation of production, improves detection efficiency.

Preferably, in addition to automatic labeling step S5, after the completion of S4 steps, if reactor detection is qualified, control Molding block control control slide block continues to move along, and reactor moves to reach the position of automatic labeling mechanism 5 with sliding block, and the 4th passes Sensor 502 sends a signal to control module after sensing tested reactor, and control module controls automatic labeling machine 501 to qualified Reactor is labelled.

The announcement and teaching of book according to the above description, the utility model those skilled in the art can also be to above-mentioned realities The mode of applying is changed and changed.Therefore, the utility model is not limited to embodiment disclosed and described above, right Some modifications and changes of the present utility model should also be as falling into scope of the claims of the present utility model.In addition, to the greatest extent Some specific terms have been used in pipe this specification, but these terms are merely for convenience of description, not to the utility model Form any restrictions.

Claims (10)

1. reactor on-line checking automation equipment, it is characterised in that：Including control module, frame, transport mechanism and detection machine Structure, the transport mechanism and testing agency are connected with control module respectively, and the frame includes delivery platform and detection frame, institute Delivery platform is stated below detection frame, for the transport mechanism on delivery platform, the testing agency is located at detection machine On frame, the testing agency includes megger test unit, voltage-withstand test unit and performance test unit, the insulaion resistance Test cell, voltage-withstand test unit and performance test unit are spaced in the same direction, and reactor is as transport mechanism is in delivery platform Upper movement is simultaneously detected by megger test unit, voltage-withstand test unit and performance test unit respectively.

2. reactor on-line checking automation equipment according to claim 1, it is characterised in that：The megger test Unit, voltage-withstand test unit and performance test unit are arranged with spacing W in the same direction, and the reactor is flat in conveying with transport mechanism Placed with spacing W on platform and moved forward with step pitch W.

3. reactor on-line checking automation equipment according to claim 1 or 2, it is characterised in that：The transport mechanism Including guide rail cylinder, sliding block and guide rail, guide rail is fixed on delivery platform, sliding block on the downside of the guide rail, the guide rail cylinder with Sliding block connects, and the guide rail cylinder promotes sliding block reciprocating on guide rail；The sliding block is provided with some be placed equidistant Pushing block, be provided with pushing block passage in the middle part of the guide rail, the pushing block is unidirectionally elastic pushing block, and it is designed to can be under pushing block passage Side elastic compression, the front side of the pushing block is push and block face, and inclined-plane is set on rear side of the pushing block, so that can during pushing block positive movement Equidistantly to promote reactor, during counter motion the inclined-plane touching reactor compression downwards of pushing block pass through on the downside of reactor.

4. reactor on-line checking automation equipment according to claim 3, it is characterised in that：If transport mechanism also includes Dry positioning board, on guide rail, the positioning board can be placed on positioning along guide rail direction activity, the reactor for it On working plate, pushing block promotes positioning board equidistantly to be moved along guide rail direction.

5. reactor on-line checking automation equipment according to claim 1, it is characterised in that：The megger test Unit includes Insulation Resistance Tester and the first detection station, and first detection station includes the first support frame, the first sensing Device, the first cylinder and the first test section；First support frame is fixed in frame, and the first sensor is fixed on first Support frame sidepiece, first cylinder are fixed on the first support frame, and first cylinder is connected with the first test section, and described One test section is reciprocating along the vertical direction of delivery platform by the first cylinder, first test section and the insulated electro Hinder tester electrical connection；First test section includes first input end, the first earth terminal and the first fixed mount, and described first is defeated Enter end and the first earth terminal is fixed on the first fixed mount, first fixed mount is connected by first connecting rod and the first cylinder.

6. reactor on-line checking automation equipment according to claim 1, its feature exist：The voltage-withstand test unit bag Hi-pot Tester and the second detection station are included, second detection station includes the second support frame, second sensor, the second cylinder With the second test section；Second support frame is fixed in frame, and the second sensor is fixed on the second support frame sidepiece, Second cylinder is fixed on the second support frame, and second cylinder is connected with the second test section, and second test section leads to It is reciprocating along the vertical direction of delivery platform to cross the second cylinder, second test section is electrically connected with the Hi-pot Tester Connect；Second test section includes the second input, the second earth terminal and the second fixed mount, and second input and second connects Ground terminal is fixed on the second fixed mount, and second fixed mount is connected by second connecting rod and the second cylinder.

7. reactor on-line checking automation equipment according to claim 1, its feature exist：The performance test unit bag Include reactor characteristic tester and the 3rd detection station, the 3rd detection station includes the 3rd support frame, 3rd sensor, the Three cylinders and the 3rd test section；3rd support frame is fixed in frame, and the 3rd sensor is fixed on the 3rd support Frame sidepiece, the 3rd cylinder are fixed on the 3rd support frame, and the 3rd cylinder is connected with the 3rd test section, the 3rd inspection Survey portion is reciprocating along the vertical direction of delivery platform by the 3rd cylinder, the 3rd test section and the reactor characteristic Tester electrically connects；3rd test section includes the 3rd input, the 3rd earth terminal and third fixed frame, the 3rd input End and the 3rd earth terminal are fixed in third fixed frame, and the third fixed frame is connected by third connecting rod and the 3rd cylinder.

8. reactor on-line checking automation equipment according to claim 2, its feature exist：Also include being located at transport mechanism The automatic labeling module of output end, it includes automatic labeling machine and the 4th sensor, and the 4th sensor is located at automatic labeling On machine, the 4th sensor and automatic labeling machine are connected with control module respectively, and it is used to label reactor.

9. reactor on-line checking automation equipment according to claim 1, it is characterised in that：The megger test Unit, voltage-withstand test unit and performance test cell side portion are correspondingly provided with the first detection indicator lamp, the second detection indicator lamp respectively With the 3rd detection indicator lamp, it corresponds to be connected with megger test unit, voltage-withstand test unit and performance test unit respectively.

10. reactor on-line checking automation equipment according to claim 1, it is characterised in that：The insulaion resistance is surveyed Examination unit, voltage-withstand test unit and performance test unit also include the first starter respectively, the second starter and the 3rd opens Dynamic device, three starters are connected with control module respectively.