CN209911522U

CN209911522U - Device for testing embedded power supply

Info

Publication number: CN209911522U
Application number: CN201920574451.4U
Authority: CN
Inventors: 温友密; 杨云; 李红陵
Original assignee: Zhongshan Yatesheng Technology Co Ltd
Current assignee: Zhongshan Yatesheng Technology Co Ltd
Priority date: 2019-04-24
Filing date: 2019-04-24
Publication date: 2020-01-07
Anticipated expiration: 2029-04-24

Abstract

The utility model provides a device for embedded power test, including feeding belt, discharging belt, locate the first test station of feeding belt one side, locate second test station and the third test station of discharging belt one side and locate the transport manipulator between first test station and the third test station, first test station, be equipped with corresponding test assembly on second test station and the third test station in order to be used for testing the power, be equipped with the vacuum on the transport manipulator and inhale the charging tray in order to be used for carrying in proper order to first test station with the power that will send to on the feeding belt, second test station and third test station are in order to carry out the cubic test to the power. The utility model discloses can replace the artificial while can realize the simultaneous working of three different test station in order to improve production efficiency completely.

Description

Device for testing embedded power supply

[ technical field ] A method for producing a semiconductor device

The utility model relates to a device for embedded power supply test.

[ background of the invention ]

The embedded power assembly needs to be subjected to tests of multiple projects after finishing, the traditional tests need to manually carry the power to different test stations for testing different projects, and the traditional method is troublesome and labor-consuming and is not beneficial to improving the production efficiency.

[ Utility model ] content

The to-be-solved technical problem of the utility model is to provide a device for embedded power supply test that can improve production efficiency and suitability.

The purpose of the utility model is realized like this:

the utility model provides a device for embedded power test, includes feeding belt, ejection of compact belt, locates the first test station of feeding belt one side is located the second test station and the third test station of ejection of compact belt one side and locating first test station with transport manipulator between the third test station, be equipped with corresponding test assembly on first test station, second test station and the third test station and be used for testing the power, be equipped with vacuum suction disc on the transport manipulator and be used for carrying the power that will send to on the feeding belt in proper order extremely first test station, second test station and third test station are in order to carry out the cubic test to the power.

The above structure is adopted in the utility model, the test that carries out first project is carried to first test station to the power transport of carrying on the feeding belt through the vacuum suction disc to the transport manipulator, carry the test that carries out the second project to the second test station with the power transport on the first test station after the test finishes, can carry out the test of first project to first test station with new power transport on the feeding belt simultaneously, carry the manipulator and carry it to the test that third project carries out to third test station after the power test on the second test station finishes, carry the manipulator and carry it to the unloading belt and see away after the test finishes, consequently the utility model discloses can replace the manual work in order to improve production efficiency when can realizing three different test station completely.

The device for testing the embedded power supply comprises a fixed seat, a connecting rod, a rotating seat and a rotating shaft, wherein the connecting rod is rotatably arranged on the fixed seat, the rotating seat is rotatably arranged at the end part of the connecting rod, the rotating shaft is rotatably arranged on the rotating seat and can move up and down relatively, and a vacuum suction disc is arranged at the lower end of the rotating shaft, so that the carrying manipulator can realize 4-shaft linkage so as to carry the power supply among a feeding belt, a first testing station, a second testing station, a third testing station and a discharging belt.

As above a device for embedded power supply test, the both sides of feeding belt are equipped with first baffle and second baffle respectively in order to be used for carrying on spacingly to the power, be equipped with on the first baffle and be used for whether infrared sensor that induction power sent to feeding belt and can be relative first baffle activity stretches out in order to be used for blockking the movable stop dog of power, be equipped with on the second baffle and be used for with the power toward the cylinder that first baffle pushed away is in order to fix a position the power, and movable stop dog stretches out in order to block the power and continue forward conveying when infrared sensor senses the power and conveys on feeding belt, and feeding belt stops the conveying simultaneously, and the cylinder pushes away the power toward first baffle to fix a position the power and snatch the transport in order to make things convenient for the transport manipulator to carry.

The device for testing the embedded power supply is characterized in that the second baffle is provided with an adjusting component for adjusting the distance between the second baffle and the first baffle, the adjusting component comprises an adjusting screw rod, a fixing screw block, a guide rod and a fixing guide seat, the adjusting screw rod is in threaded connection with the fixing screw block, one end of the adjusting screw rod is connected with the second baffle, the other end of the adjusting screw rod is provided with a hand wheel, the guide rod penetrates through the fixing guide seat and is fixedly connected with the second baffle, and the distance between the second baffle and the first baffle can be adjusted by rotating the hand wheel, so that the adjusting screw rod can be adapted to power supplies with different sizes and specifications, and the adaptability is strong.

[ description of the drawings ]

The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the carrying manipulator of the present invention;

fig. 3 is a schematic structural view of the feeding belt of the present invention;

fig. 4 is an enlarged view of a portion I of fig. 1.

[ detailed description ] embodiments

The utility model provides a device for embedded power test, including feeding belt 1, discharging belt 2, locate the first test station 3 of feeding belt 1 one side, locate second test station 4 and the third test station 5 of discharging belt 2 one side and locate the transport manipulator 6 between first test station 3 and the third test station 5, first test station 3, be equipped with corresponding test assembly on second test station 4 and the third test station 5 in order to be used for testing power 10, be equipped with vacuum suction disc 61 on the transport manipulator 6 and be used for carrying in proper order the power 10 that send to feeding belt 1 to first test station 3, second test station 4 and third test station 5 are in order to carry out the cubic test to power 10.

The carrying manipulator 6 comprises a fixed seat 62, a connecting rod 63 rotatably arranged on the fixed seat 62, a rotating seat 64 rotatably arranged at the end part of the connecting rod 63, and a rotating shaft 65 rotatably arranged on the rotating seat 64 and capable of moving up and down relatively, the vacuum material sucking disc 61 is arranged at the lower end of the rotating shaft 65, a driving motor for driving the connecting rod 63 to rotate relative to the fixed seat 62 is arranged on the fixed seat 62, the driving motor for driving the rotating seat 64 to rotate relative to the connecting rod 63 is arranged on the connecting rod 63, the driving motor for driving the rotating shaft 65 to rotate relative to the rotating seat 64 is arranged on the rotating seat 64, a driving cylinder for driving the rotating shaft 65 to lift up and down relative to the rotating seat 64 is arranged on the rotating shaft 65, and a vacuum device for vacuumizing the vacuum material sucking disc 61 is arranged on the vacuum.

The two sides of the feeding belt 1 are respectively provided with a first baffle 7 and a second baffle 8 for limiting the power supply 10, the first baffle 7 is provided with an infrared sensor 71 used for sensing whether the power supply 10 is sent to the feeding belt 1 or not and a movable stop 72 which can movably extend out relative to the first baffle 7 for stopping the power supply 10, the second baffle 8 is provided with a cylinder 73 used for pushing the power supply 10 to the first baffle 7 for positioning the power supply 10, the feeding belt 1 and the discharging belt 2 are respectively provided with a driving motor for driving the feeding belt 1 and the discharging belt 2 to transmit, and one side of the discharging belt 2 is also provided with a corresponding infrared sensor 71 for detecting the power supply 10 sent from a third testing station and starting the discharging belt 2 to send the discharging belt 2 out.

The second baffle plate 8 is provided with an adjusting assembly 9 for adjusting the distance between the second baffle plate 8 and the first baffle plate 7, the adjusting assembly 9 comprises an adjusting screw 91, a fixed screw block 92, a guide rod 93 and a fixed guide seat 94, the adjusting screw 91 is in threaded connection with the fixed screw block 92, one end of the adjusting screw is connected with the second baffle plate 8, the other end of the adjusting screw is provided with a hand wheel 95, and the guide rod 93 penetrates through the fixed guide seat 94 and is fixedly connected with the second baffle plate 8. To further improve the adaptability, a code scanner may be disposed on the rotary base 64 for scanning the two-dimensional code affixed to the power supply 10 to determine the model number of the currently tested power supply 10 and determine the items to be tested.

When the utility model is used, the power source 10 is transferred to the feeding belt 1 and triggers the infrared sensor 71 on the first baffle 7, at this time, the movable stopper 72 extends to stop the power source 10 from continuously transferring forward, meanwhile, the feeding belt 1 stops transferring, the cylinder 73 pushes the power source 10 to the first baffle 7, thereby positioning the power source 10, then the carrying manipulator 6 is carried to the first testing station 3 through the power source 10 through the vacuum material sucking disc 61 to test the first item, after the test is finished, the carrying manipulator 6 carries the power source 10 on the first testing station 3 to the second testing station 4 to test the second item, meanwhile, the power source 10 newly positioned on the feeding belt 1 can be carried to the first testing station 3 to test the first item, after the test of the power source 10 on the second testing station 4 is finished, the carrying manipulator 6 carries the power source to the third testing station 5 to test the third item, when the test is finished, the carrying manipulator 6 carries the test object to the discharging belt 2, and when the infrared sensor 71 on one side of the discharging belt 2 senses that the power supply 10 falls, the discharging belt 2 is started and the power supply 10 is sent away. This is repeated so that the first test station 3, the second test station 4 and the third test station 5 can operate simultaneously and perform three tests of different items on the same power supply 10 in sequence.

Claims

1. A device for embedded power supply testing is characterized by comprising a feeding belt (1), a discharging belt (2), a first testing station (3) arranged on one side of the feeding belt (1), a second testing station (4) and a third testing station (5) arranged on one side of the discharging belt (2) and a carrying manipulator (6) arranged between the first testing station (3) and the third testing station (5), the first test station (3), the second test station (4) and the third test station (5) are provided with corresponding test components for testing the power supply (10), the conveying manipulator (6) is provided with a vacuum material sucking disc (61) for conveying a power supply (10) conveyed to the feeding belt (1) to the first testing station (3), the second testing station (4) and the third testing station (5) in sequence for carrying out three-time testing on the power supply (10).

2. The device for testing the embedded power supply according to claim 1, wherein the carrying manipulator (6) comprises a fixed base (62), a connecting rod (63) rotatably arranged on the fixed base (62), a rotating base (64) rotatably arranged at an end of the connecting rod (63), and a rotating shaft (65) rotatably arranged on the rotating base (64) and capable of moving up and down relative to the rotating base, and the vacuum suction disc (61) is arranged at a lower end of the rotating shaft (65).

3. The device for the embedded power supply test according to claim 1 or 2, wherein a first baffle (7) and a second baffle (8) are respectively arranged on two sides of the feeding belt (1) and used for limiting the power supply (10), the first baffle (7) is provided with an infrared sensor (71) used for sensing whether the power supply (10) is fed onto the feeding belt (1) or not and a movable stop block (72) which can movably extend relative to the first baffle (7) and used for blocking the power supply (10), and the second baffle (8) is provided with a cylinder (73) used for pushing the power supply (10) to the first baffle (7) so as to position the power supply (10).

4. The device for the embedded power supply test according to claim 3, wherein the second baffle (8) is provided with an adjusting component (9) for adjusting the distance between the second baffle and the first baffle (7), the adjusting component (9) comprises an adjusting screw rod (91), a fixing screw block (92), a guide rod (93) and a fixing guide seat (94), the adjusting screw rod (91) is in threaded connection with the fixing screw block (92), one end of the adjusting screw rod is connected with the second baffle (8), the other end of the adjusting screw rod is provided with a hand wheel (95), and the guide rod (93) penetrates through the fixing guide seat (94) and is fixedly connected with the second baffle (8).