CN211627716U

CN211627716U - Motor protector detection equipment

Info

Publication number: CN211627716U
Application number: CN202020057232.1U
Authority: CN
Inventors: 胡伊特; 胡伊达; 张彭春; 胡美良; 周素斌
Original assignee: Xinling Electrical Co ltd
Current assignee: Xinling Electrical Co ltd
Priority date: 2020-01-10
Filing date: 2020-01-10
Publication date: 2020-10-02
Anticipated expiration: 2030-01-10

Abstract

The utility model relates to a motor protector check out test set, detecting element includes elevating platform and first power supply, the both sides of elevating platform top are provided with three-phase electrode and insert row, the row is inserted in the wiring, the second power supply, be provided with gear adjustment tool bit directly over the elevating platform, the rotatory servo motor of drive gear adjustment tool bit, detect optical fiber sensor and third power supply, the elevating platform is provided with detection barrier post and fourth power supply by the one end of playing the material district, one side of detecting the barrier post is provided with blocks photoelectric switch, the one end of leaning on the detection zone in the material loading district is provided with the fifth power supply that the feeding blocks post and drive feeding barrier post action, one side of feeding barrier post is provided with feeding photoelectric switch, it rejects the ejector pin and drive sixth power supply of rejecting the ejector pin action to play to be provided with in the material district, one side of rejecting the ejector pin is provided with rejects photoelectric switch. The utility model discloses realize motor protector's automated inspection, improve the detection efficiency and the detection accuracy of product greatly.

Description

Motor protector detection equipment

Technical Field

The utility model relates to a check out test set especially relates to a motor protector check out test set.

Background

The motor protector can cut off the circuit loop in time when the circuit is open-phase or overloaded, and prevent the motor from continuing to run under the fault. The motor protector is required to be tested before leaving a factory after being produced and assembled, and the existing motor protector testing steps are as follows: 1, connecting a motor protector into an analog calibration circuit; 2. testing whether the protection action of the protector is qualified or not by adjusting different gears of the motor protector; 3. and screening out qualified and unqualified motor protectors. Because the inspection steps are complicated, the efficiency is low only by manually performing the inspection, the accuracy of the manual inspection is not high, and unqualified motor protectors may exist when the motor protectors leave a factory.

Disclosure of Invention

In view of this, the utility model aims at providing a motor protector check out test set improves motor protector inspected efficiency and rate of accuracy through automated control to solve among the prior art technical problem that artifical inspection motor protector inefficiency, rate of accuracy are not high.

In order to achieve the above purpose, the present invention adopts a motor protector detection device, which comprises a frame, and an automatic detection assembly line and a control circuit arranged on the frame, wherein the automatic detection assembly line comprises a feeding area, a detection area, a material kicking area, and a conveyor belt running through the feeding area, the detection area, and the material kicking area, which are arranged in sequence, the detection area is provided with a plurality of detection units, the detection units comprise a lifting platform and a first power source for driving the lifting platform to lift, two sides above the lifting platform are provided with a three-phase electrode socket, a wiring socket, a second power source for driving the three-phase electrode socket and the wiring socket, a gear adjusting tool bit, a servo motor for driving the gear adjusting tool bit to rotate, a detection optical fiber sensor, and a third power source for driving the gear adjusting tool bit to lift are arranged right above the lifting platform, one end of the lifting area is provided with a fourth power source for detecting a blocking column and driving the detection blocking column, one side of the detection blocking column is provided with a blocking photoelectric switch, one end of the feeding area close to the detection area is provided with a fifth power source for driving the feeding blocking column and the feeding blocking column to move, one side of the feeding blocking column is provided with a feeding photoelectric switch, the kicking area is provided with a sixth power source for rejecting a mandril and driving the ejector mandril to move, one side of the rejecting mandril is provided with a rejecting photoelectric switch, the fourth power source is provided with a detection blocking magnetic switch, the fifth power source is provided with a feeding blocking magnetic switch, the first power source is provided with a lifting in-place magnetic switch, the control circuit comprises a first PLC, a second PLC, a servo driver, a switching power supply, a touch screen, a timing circuit, a three-phase constant current source circuit and a motor protector power supply control circuit, and the three-phase constant current source circuit outputs analog three-phase current to a three-phase motor socket, the motor protector power supply control circuit outputs motor protector working voltage to a wiring power strip, the servo driver is respectively connected with a first PLC and a second PLC, the output end of the optical fiber sensor is connected with the input end of the first PLC, the servo motor is connected with the servo driver, the output end of the first PLC is connected with the input end of the servo motor, the output end of the photoelectric switch, the output end of the feeding photoelectric switch, the output end of the rejecting photoelectric switch, the output end of the detecting magnetic switch, the output end of the feeding blocking magnetic switch, the output end of the lifting magnetic switch, and the output end of the three-phase constant current source circuit are respectively connected with the input end of the photoelectric switch, the input end of the second PLC, the input end of the third power source, the input end of the fourth power source, the input end of the fifth power source, the output end of the three-phase constant current source, The input end of a sixth power source and the power supply control circuit of the motor protector, the timing circuit is respectively connected with the first PLC and the second PLC, and the switching power supply respectively provides working voltage for the first PLC, the second PLC and the touch screen.

The control circuit of the motor protector detection device takes a Programmable Logic Controller (PLC) and a servo driver as cores to realize automatic detection control of the motor protector, and the working mode is as follows: 1. starting the equipment, placing the motor protector on a conveying belt of a feeding area, and enabling the motor protector to enter a detection area along with the movement of the conveying belt; 2. after the blocking photoelectric switch detects that the motor protector enters the detection unit, an electric signal is sent to a second PLC, the second PLC controls a fourth power source to drive and detect the blocking column to block the motor protector, after the motor protector is arranged on each detection unit, the feeding photoelectric switch detects the next motor protector which is about to enter the detection area and sends an electric signal to the second PLC, and the second PLC controls a fifth power source to drive and detect the blocking column to block the motor protector to be detected in the feeding area; 3. when the detection blocking magnetic switch and the feeding blocking magnetic switch detect that the fourth power source and the fifth power source act in place, an electric signal is sent to the second PLC, and the second PLC controls the first power source to drive the lifting platform to lift the motor protector entering the detection unit; 4. when the lifting-to-position magnetic switch detects that the first power source acts in place, an electric signal is sent to a second PLC, the second PLC controls the second power source to drive three-phase electrode plug rows and wiring plug rows on two sides to act, the three-phase motor plug rows penetrate through detection holes of the motor protector, and the wiring plug rows supply power to the motor protector; 5. when the three-phase electrode socket and the wiring socket act in place, the second PLC controls a third power source to drive the gear adjusting tool bit to descend, so that the gear adjusting tool bit is clamped into a gear adjusting end of the motor protector, and the first PLC and the servo driver control the servo motor to rotate the gear adjusting tool bit to test the motor protector; 6. the three-phase constant current source circuit outputs a simulated fault current signal to the three-phase electrode socket, the detection optical fiber sensor detects signal lamp reaction (namely the action protection time of the motor protector) of the motor protector under each gear and the fault current signal and feeds the signal lamp reaction back to the first PLC, and the signal lamp reaction is compared with the qualified action protection time of the corresponding gear of the timing circuit to judge whether the action protection time of the motor protector is qualified or not; 7. after each gear all detected, motor protector left and got into from the detection zone and kicked the material district, rejected photoelectric switch and counted and export the signal of telecommunication for second PLC to its motor protector, and second PLC controls the drive of sixth power supply and rejects certain detecting element that the ejector pin feedbacks with the detection zone and detect unqualified motor protector and reject, and all the other qualified motor protector shifts out from the conveyer belt end in proper order, accomplishes and detects. The utility model discloses a motor protector check out test set can replace the manual work to detect the automatic detection that realizes motor protector, has reduced the cost of labor, has improved the detection efficiency that motor protector dispatched from the factory greatly, detects the rate of accuracy height moreover.

The utility model discloses a below that further sets up to the conveyer belt is provided with the bottom plate, and the top of conveyer belt is provided with the locating plate, form the fluting on the locating plate, be provided with in the fluting and detect the apron, it forms gear adjustment hole and state inspection hole on the detection apron, the gear adjustment tool bit is just to gear adjustment hole, and it is just to state inspection hole to detect optical fiber sensor, the side of detecting the apron is provided with the seventh power supply that presss from both sides tight ejector pin and the tight ejector pin action of drive clamp, the side that detects the apron forms and presss from both sides tight groove, press from both sides tight ejector pin swing joint in pressing from both sides tight groove, the.

Above-mentioned after elevating platform rises motor protector to detecting the apron, the tight ejector pin action of clamp of seventh power supply drive side is controlled to the second PLC, fixes motor protector in detecting the apron, makes motor protector's gear regulation end just to the gear regulation hole that detects the apron, and motor protector's signal lamp is just to the state inspection hole that detects the apron to improve detecting element's operational reliability.

The utility model discloses further set up to the detecting element including setting up the detection support on the locating plate, the third power supply is located and detects the support bottom, be provided with the loose plate that can reciprocate on the detection support, gear adjusting tool bit and servo motor all connect on the loose plate, the third power supply is connected with the loose plate, it is fixed with the direction piece to detect the support bottom, gear adjusting tool bit activity is worn to put on the direction piece, the direction piece is located the gear adjusting hole directly over.

The detection support is used for lifting the gear adjusting tool bit, the guide piece further ensures that the gear adjusting tool bit can accurately operate the gear adjusting end of the motor protector, and the relative position of the parts on the detection unit is prevented from being deviated after long-term detection.

The utility model discloses further set up to the elevating platform including the symmetry set up the lifter plate in the conveyer belt both sides and be used for the lift seat of fixed lifter plate, the lift seat is connected with first power supply.

The utility model discloses further set up to be provided with the push pedal of symmetry below the locating plate, the push pedal sets up the both sides at the conveyer belt, push pedal swing joint is on the locating plate, the three-phase electrode is inserted the row and is connected respectively in the push pedal with the wiring row of inserting, second power supply and push pedal are connected, be provided with the position sensor who detects both sides three-phase electrode and insert the row and the wiring row of inserting and remove on the locating plate, second PLC's input is connected to position sensor's output.

The second PLC controls the second power source to drive the two push plates to move in opposite directions, the three-phase electrode socket and the wiring socket on the two push plates are connected in a conduction mode, a simulation test circuit of the motor protector and a power supply circuit can be connected, the whole structure is simplified, the connection is stable and reliable, the position sensors are used for detecting whether the three-phase electrode sockets on the two sides and the wiring socket are connected in place, and therefore the control circuit is operated on the next step.

The utility model discloses further set up to first power supply, second power supply, third power supply, fourth power supply, fifth power supply, sixth power supply, seventh power supply and be the cylinder.

This practicality further sets up to the station number of detecting element for 5.

The utility model is further arranged that the power supply control circuit of the motor protector comprises breakers QF 1-QF 3, emergency stop switches SBA, contactors KM 0-KM 9, transformer TB1, transformer TB2, voltage regulator TC1, rectifier bridge D1, voltmeter PV1 and voltmeter PV2, the coils of the contactors KM 1-KM 9 are respectively connected with the output end of the second PLC, the wire inlet end of the breaker QF1 is connected with an external AC power supply, the wire inlet end of the breaker QF2 is respectively connected with the wire outlet end of the breaker QF1 and one end of the emergency stop switch SBA, the other end of the emergency stop switch SBA is connected with the wire outlet end of the breaker QF1, the wire outlet end of the breaker QF2 is connected with the coil of the contactor KM0, the wire outlet end of the breaker QF1 is connected with one end of a normally open contact of the contactor KM9, the other end of the normally open contact of the contactor KM0 is respectively connected with the primary side TB1 and the input end of the voltage regulator TC1, the secondary side of the, the first secondary side is connected with a normally open contact of a contactor KM7, the second secondary side is connected with a normally open contact of a contactor KM8, an output end of the first secondary side and an output end of the second secondary side are respectively connected with one end of a main contact of a contactor KM9, the voltmeter PV1 and the normally open contact of the contactor KM5 are connected in series to form a first voltage detection loop, the voltmeter PV2 and the normally open contact of the contactor KM4 which are connected in parallel are connected in series to form a second voltage detection loop, the first voltage detection loop and the second voltage detection loop are respectively connected with the other end of the main contact of the contactor KM 8657, an output end of the voltage regulator TC1 is connected with a primary side of a transformer TB2, the secondary side of the transformer TB2 comprises a third secondary side, a fourth secondary side and a fifth secondary side, the third secondary side is connected with a normally open contact of a contactor KM1, the fourth secondary side is connected with a normally open contact of a, the output end of the third secondary side, the output end of the fourth secondary side and the output end of the fifth secondary side are respectively connected with the input end of a rectifier bridge D1 and one end of a contactor KM4 normally open contact, the output end of the rectifier bridge D1 and the other end of the contactor KM4 normally open contact are respectively connected with one end of a contactor KM6 main contact, the input end and the output end of a rectifier bridge D1 are both connected with a contactor KM5 normally open contact, the other end of the contactor KM6 main contact is connected with the other end of a contactor KM9 main contact, and a breaker QF3 is respectively connected with the secondary side output end of a transformer TB2 and the other end of the contactor KM.

The coils of the contactors KM 1-KM 9 are switched on and off through the second PLC, so that the power supply control circuit of the motor protector is controlled to output voltages of different specifications. When a coil of the contactor KM0, a coil of the contactor KM7 and a coil of the contactor KM9 are electrified, the power supply control circuit of the motor protector outputs 220V alternating voltage; when a coil of the contactor KM0, a coil of the contactor KM8 and a coil of the contactor KM9 are electrified, the power supply control circuit of the motor protector outputs 380V alternating voltage; when the coil of the contactor KM0, the coil of the contactor KM1, the coil of the contactor KM4 and the coil of the contactor KM6 are electrified, the power supply control circuit of the motor protector outputs 50V alternating voltage; when the coil of the contactor KM0, the coil of the contactor KM2, the coil of the contactor KM4 and the coil of the contactor KM6 are electrified, the power supply control circuit of the motor protector outputs 250V alternating voltage; when the coil of the contactor KM0, the coil of the contactor KM3, the coil of the contactor KM4 and the coil of the contactor KM6 are electrified, the power supply control circuit of the motor protector outputs 450V alternating voltage; when the coil of the contactor KM0, the coil of the contactor KM1, the coil of the contactor KM5 and the coil of the contactor KM6 are electrified, the power supply control circuit of the motor protector outputs 50V direct-current voltage; when the coil of the contactor KM0, the coil of the contactor KM2, the coil of the contactor KM5 and the coil of the contactor KM6 are electrified, the power supply control circuit of the motor protector outputs 250V direct-current voltage; when the coil of the contactor KM0, the coil of the contactor KM3, the coil of the contactor KM5 and the coil of the contactor KM6 are electrified, the power supply control circuit of the motor protector outputs a direct-current voltage of 450V.

The utility model discloses further set up to three-phase constant current source circuit and include A looks constant current source, B looks constant current source, C looks constant current source, A looks constant current source, B looks constant current source, C looks constant current source export stable A looks current, B looks current, C looks current respectively to second PLC's input.

The phase A current, the phase B current and the phase C current output by the phase A constant current source, the phase B constant current source and the phase C constant current source are stable, and the detection accuracy of the motor protector is improved.

Drawings

Fig. 1 is a perspective view of a motor protector according to an embodiment of the present invention.

Fig. 2 is a perspective view of the motor protector detection device according to the embodiment of the present invention.

Fig. 3 is the utility model discloses an automatic detection assembly line front view.

Fig. 4 is a perspective view of an automated inspection assembly line according to an embodiment of the present invention.

Fig. 5 is a perspective view of a part of an automated inspection assembly line according to an embodiment of the present invention.

Fig. 6 is a perspective view of the detection unit according to the embodiment of the present invention.

Fig. 7 is a perspective view of the detection cover plate according to the embodiment of the present invention.

Fig. 8 is a schematic block diagram of an embodiment of the present invention.

Fig. 9 is a schematic diagram of a power supply control circuit of the motor protector according to the embodiment of the present invention.

Fig. 10 is a schematic diagram of a first PLC electrical control according to an embodiment of the present invention.

Fig. 11 is a schematic diagram of a second PLC electrical control according to an embodiment of the present invention.

Fig. 12 is a schematic diagram of a three-phase constant current source circuit according to an embodiment of the present invention.

Detailed Description

Fig. 1 is the product that the utility model discloses motor protector check out test set detected-motor protector a, motor protector a top is provided with two gear adjustment ends a1 (setting current gear adjustment end and dropout level gear adjustment end) and three pilot lamp a2 (overload pilot lamp, running indicator, open-phase pilot lamp), and motor protector's middle part forms three-phase current inspection hole a3, and motor protector's bottom forms wiring contact a 4.

As shown in fig. 2-7, the present invention relates to a motor protector detection device, which comprises a frame 1 and an automatic detection assembly line 2 disposed on the frame 1, wherein the automatic detection assembly line 2 comprises a feeding area 3, a detection area 4, a kicking area 5, and a conveyor belt 21 passing through the feeding area 3, the detection area 4, and the kicking area 5, the bottom plate 6 is disposed below the conveyor belt 21, the positioning plate 7 is disposed above the conveyor belt, five detection units are disposed on the detection area 4, the detection units from the kicking area to the feeding area are a #1 detection unit, a #2 detection unit, a #3 detection unit, a #4 detection unit, and a #5 detection unit, the detection units comprise a lifting platform 411 and a first cylinder 41 driving the lifting platform 411 to lift, the lifting platform 411 comprises a lifting plate 413 symmetrically disposed on both sides of the conveyor belt 21, and a lifting seat 414 for fixing the lifting plate 413, the lifting seat 414 is connected with the first cylinder 41, the first cylinder 41 is provided with a magnetic switch for lifting in place, two sides of the upper part of the lifting platform 411 are provided with a three-phase electrode socket 421, a wiring socket 422, a second cylinder 42 for driving the three-phase electrode socket 421 and the wiring socket 422 to move, a symmetrical push plate 74 is arranged below the positioning plate 7, the push plate 74 is arranged at two sides of the conveyor belt 21, the push plate 74 is movably connected on the positioning plate 7, the three-phase electrode socket 421 and the wiring socket 422 are respectively connected on the push plate 74, the second cylinder 42 is connected with the push plate 74, a gear adjusting tool bit 431, a servo motor 432 for driving the gear adjusting tool bit 431 to rotate, a detection optical fiber sensor 433 and a third cylinder 43 for driving the gear adjusting tool bit 431 to lift are arranged right above the lifting platform 411, the positioning plate 7 is provided with a detection bracket 73, the third cylinder 43 is located at the bottom of the detecting bracket 73, the detecting bracket 73 is provided with a movable plate 731 which can move up and down, the gear adjusting tool bit 431 and the servo motor 432 are both connected to the movable plate 731, the third cylinder 43 is connected with the movable plate 731, the bottom of the detecting bracket 73 is fixed with a guide plate 732, the gear adjusting tool bit 431 is movably arranged on the guide plate 732 in a penetrating manner, the guide plate 732 is located right above the gear adjusting hole 721, the positioning plate 7 is provided with a slot 71, a detecting cover plate 72 is arranged in the slot 71, the detecting cover plate 72 is provided with a gear adjusting hole 721 and a state detecting hole 722, the gear adjusting tool bit 431 is right aligned to the gear adjusting hole 721, the detecting optical fiber sensor 433 is right aligned to the state detecting hole 722, one end of the lifting platform 411 close to the kicking area 5 is provided with a detecting blocking column 441 and a fourth cylinder 44 which drives the detecting blocking column 441, the fourth cylinder 44 is provided with a detection blocking magnetic switch, one side of the detection blocking column 441 is provided with a blocking photoelectric switch 442, one end of the feeding area 3 close to the detection area 4 is provided with a feeding blocking column 311 and a fifth cylinder 31 for driving the feeding blocking column 311 to act, the fifth cylinder 31 is provided with a feeding blocking magnetic switch, one side of the feeding blocking column 311 is provided with a feeding photoelectric switch 312, the kicking area 5 is provided with a rejection ejector rod 511 and a sixth cylinder 51 for driving the rejection ejector rod 511 to act, one side of the rejection ejector rod 511 is provided with a rejection photoelectric switch 512, the side surface of the detection cover plate 72 is provided with a clamping ejector rod 451 and a seventh cylinder 45 for driving the clamping ejector rod 451 to act, the side surface of the detection cover plate 72 forms a clamping groove 723, and the clamping ejector rod 451 is movably connected in the clamping groove 723.

As shown in fig. 8-12, the control circuit includes a first PLC, a second PLC, a servo driver, a switching power supply, a touch panel, a timing circuit, a three-phase constant current source circuit, and a motor protector power supply control circuit, the first PLC is of XDM-60T10-E, the second PLC is of CP1E-N40SDT-D, the three-phase constant current source circuit outputs analog three-phase current to the three-phase motor socket, the motor protector power supply control circuit outputs motor protector working voltage to the socket, the servo driver is respectively connected to the first PLC and the second PLC, the output end of the detection optical fiber sensor is connected to the input end of the first PLC, the servo motor is connected to the servo driver, the output end of the first PLC is connected to the input end of the servo motor, the output end of the blocking photoelectric switch, the output end of the feeding photoelectric switch, the output end of the rejecting photoelectric switch, the timing, The detection blocks magnetic switch's output, feeding and blocks magnetic switch's output, lifts to target in place magnetic switch's output, position sensor's output, three-phase constant current source circuit's output and connects second PLC's input respectively, the input of first power supply, the input of second power supply, the input of third power supply, the input of fourth power supply, the input of fifth power supply, the input of sixth power supply, the input of seventh power supply and motor protector power supply control circuit are connected respectively to second PLC's output, timing circuit connects first PLC and second PLC respectively, switching power supply provides operating voltage for first PLC, second PLC, touch-sensitive screen respectively.

As shown in fig. 9 and 11, the power supply control circuit of the motor protector comprises breakers QF1 to QF3, an emergency stop switch SBA, contactors KM0 to KM9, a transformer TB1, a transformer TB2, a voltage regulator TC1, a rectifier bridge D1, a voltmeter PV1 and a voltmeter PV2, wherein coils of the contactors KM1 to KM9 are respectively connected to an output terminal of the second PLC, an incoming line terminal of the breaker QF1 is connected to an external ac power source, an incoming line terminal of the breaker QF2 is respectively connected to an outgoing line terminal of the breaker QF1 and one end of the emergency stop switch SBA, the other end of the emergency stop switch SBA is connected to an outgoing line terminal of the breaker QF1, a coil of the contactor KM0 is connected between outgoing line terminals of the breaker QF2, an outgoing line terminal of the breaker QF1 is connected to one end of a normally open contact 0, the other end of the normally open contact KM0 is respectively connected to a primary side TB1 and an input terminal of the voltage regulator TC1, a secondary side of the transformer 1 includes a secondary side, the first secondary side is connected with a normally open contact of a contactor KM7, the second secondary side is connected with a normally open contact of a contactor KM8, an output end of the first secondary side and an output end of the second secondary side are respectively connected with one end of a main contact of a contactor KM9, the voltmeter PV1 and the normally open contact of the contactor KM5 are connected in series to form a first voltage detection loop, the voltmeter PV2 and the normally open contact of the contactor KM4 which are connected in parallel are connected in series to form a second voltage detection loop, the first voltage detection loop and the second voltage detection loop are respectively connected with the other end of the main contact of the contactor KM 8657, an output end of the voltage regulator TC1 is connected with a primary side of a transformer TB2, the secondary side of the transformer TB2 comprises a third secondary side, a fourth secondary side and a fifth secondary side, the third secondary side is connected with a normally open contact of a contactor KM1, the fourth secondary side is connected with a normally open contact of a, the output end of the third secondary side, the output end of the fourth secondary side and the output end of the fifth secondary side are respectively connected with the input end of a rectifier bridge D1 and one end of a contactor KM4 normally open contact, the output end of the rectifier bridge D1 and the other end of the contactor KM4 normally open contact are respectively connected with one end of a contactor KM6 main contact, the input end and the output end of a rectifier bridge D1 are both connected with a contactor KM5 normally open contact, the other end of the contactor KM6 main contact is connected with the other end of a contactor KM9 main contact, and a breaker QF3 is respectively connected with the secondary side output end of a transformer TB2 and the other end of the contactor KM.

As shown in fig. 11 and 12, the three-phase constant current source circuit includes an a-phase constant current source, a B-phase constant current source, and a C-phase constant current source, and the a-phase constant current source, the B-phase constant current source, and the C-phase constant current source respectively output stable a-phase current, B-phase current, and C-phase current to the input terminal of the second PLC.

According to the above embodiment, the utility model discloses motor protector check out test set's working method does:

1. starting the equipment, setting the voltage specification of the motor protector to be detected by an operator through a touch screen, enabling the motor protector to be detected to enter a feeding area, and transmitting the motor protector to a detection area through a conveyor belt;

2. the motor protectors sequentially enter the detection area, the first group of motor protectors respectively enter the detection unit, the photoelectric switch is prevented from sending an electric signal to the second PLC after the motor protectors enter the detection unit, the second PLC controls the fourth cylinder to drive the detection blocking column to block the motor protectors to enable the motor protectors to be located on the lifting table, and when the motor protectors are arranged on the #1 detection unit to the #5 detection unit, the second PLC controls the fifth cylinder to drive the detection blocking column to ascend to enable the next group of motor protectors to be detected to be blocked outside the detection area;

3. when the feeding blocking magnetic switch and the detection blocking magnetic switch respectively judge that the fifth air cylinder and the fourth air cylinder act in place and send electric signals to the second PLC, the second PLC controls the first air cylinders on the #1 detection units to the #5 detection units to drive the lifting platform to ascend, so that the motor protector is clamped in the detection cover plate;

4. when the lifting in-place magnetic switch detects that the first air cylinder moves in place, an electric signal is sent to the second PLC, and the second PLC controls the seventh air cylinder to drive the clamping ejector rod to clamp the motor protector on the detection units #1 to # 5;

5. when the motor protectors on the detection units #1 to #5 are clamped, the second PLC controls the second air cylinder to drive the three-phase electrode socket and the wiring socket on two sides to act, the three-phase motor socket is inserted into a three-phase current detection hole (simulating fault current) of the motor protector, and the wiring socket is inserted into a wiring contact (supplying power and controlling wiring for the motor protector) of the motor protector;

6. the second PLC controls the third air cylinder to drive the gear adjusting tool bit to descend, so that the gear adjusting tool bit is clamped into a gear adjusting end of the motor protector, the servo motor is controlled by the first PLC and the servo driver to drive the gear adjusting tool bit to rotate, the gear of the motor protector is adjusted, the optical fiber sensor is detected to detect an indicator lamp on the motor protector and send an electric signal to the first PLC, and the first PLC compares the action protection time when the indicator lamp is turned on with the qualified action protection time of the gear corresponding to the timing circuit to judge whether the action protection time of the motor protector is qualified or not;

7. after detection is finished, the first batch of motor protectors leave from the #1 detection units to the #5 detection units and move to a material kicking area along with the conveyor belt, the photoelectric switches are rejected to count the motor protectors passing through the photoelectric switches and output electric signals to the second PLC, the second PLC controls the sixth power source to drive the rejection ejector rod to reject the unqualified motor protectors detected by one detection unit fed back by the detection area, and the other qualified motor protectors are sequentially moved out from the tail end of the conveyor belt to finish detection.

Claims

1. A motor protector detection device characterized in that: comprises a frame, an automatic detection production line and a control circuit which are arranged on the frame,

the automatic detection assembly line comprises a feeding area, a detection area, a material kicking area, a conveyor belt penetrating through the feeding area, the detection area and the material kicking area, a plurality of detection units are arranged on the detection area, each detection unit comprises a lifting platform and a first power source for driving the lifting platform to lift, two sides above the lifting platform are provided with a second power source for driving a three-phase electrode socket, a wiring socket, a three-phase electrode socket and a wiring socket to move, a gear adjusting tool bit, a servo motor for driving the gear adjusting tool bit to rotate, a detection optical fiber sensor and a third power source for driving the gear adjusting tool bit to lift are arranged right above the lifting platform, one end, close to the material kicking area, of the lifting platform is provided with a fourth power source for detecting a blocking column and a driving detecting blocking column, one side, close to the detecting blocking column is provided with a blocking photoelectric switch, one end, close to the detection area, of the feeding blocking column and a fifth power source for driving the feeding blocking column to move are arranged on the feeding area, a feeding photoelectric switch is arranged on one side of the feeding blocking column, a rejecting ejector rod and a sixth power source for driving the rejecting ejector rod to act are arranged on the kicking area, a rejecting photoelectric switch is arranged on one side of the rejecting ejector rod, a detecting blocking magnetic switch is arranged on the fourth power source, a feeding blocking magnetic switch is arranged on the fifth power source, a lifting in-place magnetic switch is arranged on the first power source,

the control circuit comprises a first PLC, a second PLC, a servo driver, a switching power supply, a touch screen, a timing circuit, a three-phase constant current source circuit, a motor protector power supply control circuit, wherein the three-phase constant current source circuit outputs a simulated three-phase current to a three-phase motor socket, the motor protector power supply control circuit outputs a working voltage of the motor protector to the wiring socket, the servo driver is respectively connected with the first PLC and the second PLC, the output end of the detection optical fiber sensor is connected with the input end of the first PLC, the servo motor is connected with the servo driver, the output end of the first PLC is connected with the input end of the servo motor, the output end of the blocking photoelectric switch, the output end of the feeding photoelectric switch, the output end of the rejecting photoelectric switch, the output end of the detecting blocking magnetic switch, the output end of the feeding blocking magnetic switch, the output end, The input of second PLC is connected respectively to three-phase constant current source circuit's output, the input of first power supply, the input of second power supply, the input of third power supply, the input of fourth power supply, the input of fifth power supply, the input of sixth power supply and motor protector power supply control circuit are connected respectively to second PLC's output, first PLC and second PLC are connected respectively to timing circuit, switching power supply provides operating voltage for first PLC, second PLC, touch-sensitive screen respectively.

2. A motor protector detection apparatus as set forth in claim 1 wherein: the utility model discloses a gear detection device, including conveyer belt, gear adjustment tool bit, detection optical fiber sensor, the below of conveyer belt is provided with the bottom plate, and the top of conveyer belt is provided with the locating plate, form the fluting on the locating plate, be provided with in the fluting and detect the apron, it forms gear adjustment hole and state inspection hole on the detection apron, the gear adjustment tool bit is just to gear adjustment hole, detects optical fiber sensor and just to state inspection hole, the side of detecting the apron is provided with the seventh power supply of pressing from both sides tight ejector pin and the action of the tight ejector pin of drive clamp, the side of detecting the apron forms and presss from both sides tight groove, press.

3. A motor protector detection apparatus as set forth in claim 2 wherein: the detection unit is including setting up the detection support on the locating plate, the third power supply is located and detects support bottom, be provided with the loose plate that can reciprocate on the detection support, gear adjusting tool bit and servo motor all connect on loose plate, the third power supply is connected with loose plate, it is fixed with the direction piece to detect support bottom, gear adjusting tool bit activity is worn to put on the direction piece, the direction piece is located gear adjusting hole directly over.

4. A motor protector detection apparatus as claimed in claim 1, 2 or 3, wherein: the lifting platform comprises lifting plates symmetrically arranged on two sides of the conveying belt and a lifting seat used for fixing the lifting plates, and the lifting seat is connected with a first power source.

5. A motor protector detection apparatus as set forth in claim 2 or 3 wherein: the utility model discloses a two-phase electrode power supply, including locating plate, push pedal, three-phase electrode power supply, second power supply and push pedal, the locating plate below is provided with the push pedal of symmetry, and the push pedal sets up the both sides at the conveyer belt, push pedal swing joint is on the locating plate, the three-phase electrode is inserted the row and is connected respectively in the push pedal with the row is inserted in the wiring, second power supply and push pedal are connected, be provided with the position sensor who detects both sides three-phase electrode and insert the row.

6. A motor protector detection apparatus as set forth in claim 2 or 3 wherein: the first power source, the second power source, the third power source, the fourth power source, the fifth power source, the sixth power source and the seventh power source are all cylinders.

7. A motor protector detection apparatus as claimed in claim 1, 2 or 3, wherein: the number of the stations of the detection unit is 5.

8. A motor protector detection apparatus as claimed in claim 1, 2 or 3, wherein: the power supply control circuit of the motor protector comprises breakers QF 1-QF 3, emergency stop switches SBA, contactors KM 0-KM 9, a transformer TB1, a transformer TB2, a voltage regulator TC1, a rectifier bridge D1, a voltmeter PV1 and a voltmeter PV2, coils of the contactors KM 1-KM 9 are respectively connected with the output end of a second PLC, the wire inlet end of the breaker QF1 is connected with an external alternating current power supply, the wire inlet end of the breaker QF2 is respectively connected with the wire outlet end of the breaker QF1 and one end of the emergency stop switch SBA, the other end of the emergency stop switch SBA is connected with the wire outlet end of the breaker QF1, a coil of the contactor KM0 is connected between the wire outlet ends of the breaker QF2, the wire outlet end of the breaker QF1 is connected with one end of a normally open contact of the contactor KM9, the other end of the normally open contact of the contactor KM0 is respectively connected with the primary side of a transformer TB1 and the input end of the voltage regulator TC1, the first secondary side is connected with a normally open contact of a contactor KM7, the second secondary side is connected with a normally open contact of a contactor KM8, an output end of the first secondary side and an output end of the second secondary side are respectively connected with one end of a main contact of a contactor KM9, the voltmeter PV1 and the normally open contact of the contactor KM5 are connected in series to form a first voltage detection loop, the voltmeter PV2 and the normally open contact of the contactor KM4 which are connected in parallel are connected in series to form a second voltage detection loop, the first voltage detection loop and the second voltage detection loop are respectively connected with the other end of the main contact of the contactor KM 8657, an output end of the voltage regulator TC1 is connected with a primary side of a transformer TB2, the secondary side of the transformer TB2 comprises a third secondary side, a fourth secondary side and a fifth secondary side, the third secondary side is connected with a normally open contact of a contactor KM1, the fourth secondary side is connected with a normally open contact of a, the output end of the third secondary side, the output end of the fourth secondary side and the output end of the fifth secondary side are respectively connected with the input end of a rectifier bridge D1 and one end of a contactor KM4 normally open contact, the output end of the rectifier bridge D1 and the other end of the contactor KM4 normally open contact are respectively connected with one end of a contactor KM6 main contact, the input end and the output end of a rectifier bridge D1 are both connected with a contactor KM5 normally open contact, the other end of the contactor KM6 main contact is connected with the other end of a contactor KM9 main contact, and a breaker QF3 is respectively connected with the secondary side output end of a transformer TB2 and the other end of the contactor KM.

9. A motor protector detection apparatus as claimed in claim 1, 2 or 3, wherein: the three-phase constant current source circuit comprises an A-phase constant current source, a B-phase constant current source and a C-phase constant current source, wherein the A-phase constant current source, the B-phase constant current source and the C-phase constant current source respectively output stable A-phase current, B-phase current and C-phase current to the input end of the second PLC.