CN115332886A - Integrated circuit electronic test socket with error-proof assembly - Google Patents

Abstract

The invention belongs to the technical field of sockets for electrical testing of indication switches, and relates to an integrated circuit electronic testing socket with an error-proof assembly. The invention aims to provide an integrated circuit electronic test socket with a mistake-proofing component, which has relatively high accuracy of test data. In order to solve the technical problem, the invention provides an integrated circuit electronic test socket with an error-proof assembly, which comprises an upper shell, a socket, an inclined opening guide block and the like; the middle part of the upper end face of the upper shell is fixedly connected with a socket, and the socket is fixedly connected with bevel opening guide blocks used for guiding pins on the electronic component at even intervals. The auxiliary action of the bevel connection guide block on the socket can limit and guide the left side and the right side of pins on the electronic component, so that the pins on the electronic component are prevented from being inclined, and the purpose of error prevention is achieved.

Description

Integrated circuit electronic test socket with error-proof assembly

Technical Field

The invention belongs to the technical field of sockets for electrical testing of indication switches, and relates to an integrated circuit electronic testing socket with an error-proof assembly.

Background

The indication switch is a non-manual control switch that is executed under a prescribed condition of an operation amount (the operation amount may be pressure, temperature, liquid level, elapsed time, etc.), and generally includes integrated circuit electronics therein, which is a micro-electronic device or component on an integrated circuit board. In the production and manufacturing process of the electronic device, the capacitance, the resistance, the inductance and the like in the electronic device need to be detected.

At present, when the existing integrated circuit electronic test socket is used for testing, pins on an electronic device are small, but the existing test socket generally has no function of preventing the pins on the integrated circuit electronics from being wrong, so that the pins on the integrated circuit electronics are easy to be misplaced, and further, the data of the integrated circuit electronic test is inaccurate.

Therefore, there is a need to design an integrated circuit electrical test socket with error-proof components that has a high accuracy of test data in view of the shortcomings of the prior art.

Disclosure of Invention

The invention aims to overcome the defect that when a test socket in the prior art is adopted to carry out electronic test on an integrated circuit, the error-proof function is not arranged, so that the tested data is easy to deviate.

In order to solve the technical problem, the invention provides an integrated circuit electronic test socket with an error-proofing assembly, which comprises an upper shell, a socket, a lower shell, mounting seats, wires and contact elastic pieces, wherein the upper shell is fixedly connected with the socket, jacks are uniformly arranged on the socket at intervals, the lower shell is clamped on one side of the socket far away from the upper shell, observation holes are uniformly arranged on the lower shell at intervals, at least two mounting seats for supporting are fixedly connected on the lower shell, the wires are clamped between the mounting seats in a penetrating manner, one ends of the wires are clamped on one side of the upper shell in a penetrating manner, the contact elastic pieces are uniformly arranged on the wires between the mounting seats at intervals, each contact elastic piece is positioned right below the corresponding jack, the pins on the electronic components are downwards inserted to be contacted with the corresponding contact elastic pieces, the integrated circuit electronic test socket further comprises oblique opening guide blocks, a prompt assembly and a warning assembly, oblique opening guide blocks for guiding the pins on the electronic components are fixedly connected on the socket at intervals, each jack is positioned between two oblique opening guide blocks close to each other, the warning assembly for warning information on the lower shell, and one side of the warning assembly for warning assembly is arranged on the lower shell.

In a preferred embodiment of the present invention, the indication component includes a mounting frame, a distance sensor, a lower mounting plate, an electromagnet, an upper mounting plate, a sliding frame, two-color indication plates and permanent magnets, the mounting frame is fixedly connected to the lower housing, the distance sensor is uniformly distributed on the mounting frame at intervals, the lower mounting plate is fixedly connected to the lower housing, the mounting plate is located on one side of the mounting frame, the electromagnet is fixedly connected to the lower mounting plate at intervals, the electromagnet is electrically connected to the distance sensor, the upper mounting plate is fixedly connected to the lower housing, the upper mounting plate is close to one side of the mounting plate, the sliding frame is slidably sleeved on the upper mounting plate at intervals, the permanent magnet is fixedly connected to one side of each sliding frame, one side of the permanent magnet is in contact with the electromagnet, the electromagnet and the permanent magnet generate a repulsive force, a two-color indication plate for error-prevention reminding is clamped to the other side of each sliding frame, green and red are symmetrically distributed on the two-color indication plates in an up-down manner, and the two-color indication plates in green areas are respectively corresponding to the observation holes.

In a preferred embodiment of the invention, the warning assembly comprises an outer shell, a mounting shell, a motor, a connecting shaft, bumps and a toggle piece, wherein the outer shell is clamped on one side of the upper shell, the outer shell is close to one side of the lower shell, the mounting shell is fixedly connected to one side of the outer shell, the motor is mounted on the mounting shell, the connecting shaft is rotatably mounted on the outer shell, one end of the connecting shaft is connected with an output shaft of the motor, the bumps are uniformly distributed on the connecting shaft at intervals, the toggle piece is hinged to a protruding end of each bump, and the outer shell can be knocked after the toggle piece swings.

In a preferred embodiment of the present invention, the electronic component further includes a centering assembly for assisting in guiding the outer sides of the pins on the electronic component, the centering assembly includes a guide rail, a moving frame and rollers, the guide rail is fixedly connected to the upper housing, one side of the guide rail close to the socket is slidably mounted on the guide rail, at least two moving frames are slidably mounted on the guide rail, and the rollers are rotatably arranged on each moving frame at uniform intervals.

In a preferred embodiment of the present invention, the electronic component further includes a limiting assembly for assisting in guiding the inner side of the pin on the electronic component, the limiting assembly includes at least two guiding rods, each guiding rod is located at a side close to the guiding rail, a limiting plate for preventing the pin of the electronic component from deflecting to the inner side is slidably sleeved between the guiding rods, each guiding rod is sleeved with an elastic member, one end of the elastic member is connected to the limiting plate, and the other end of the elastic member is connected to the guiding rod.

In a preferred embodiment of the present invention, the test device further comprises an ejection assembly capable of automatically ejecting the tested electronic component, the ejection assembly comprises a sliding rod, a return spring and a top plate, the sliding rod penetrates through the socket in a sliding manner, one end of the sliding rod is fixedly connected to the top plate, the other end of the sliding rod is sleeved with the return spring, one end of the return spring is connected to the socket, and the other end of the return spring is connected to the sliding rod.

In a preferred embodiment of the invention, the electronic component pressing device further comprises a pressing component for assisting the pressing of the electronic component, a pressing component guide column, an n-type connecting rod, an extrusion plate, a touch shifting fork and an inner bevel shifting block, the upper shell is fixedly connected with the guide column, one side of the guide column, which is far away from the outer shell, is slidably sleeved with the n-type connecting rod, one side of the n-type connecting rod is fixedly connected with the extrusion plate, the other side of the n-type connecting rod is fixedly connected with the touch shifting fork, the touch shifting fork is in sliding fit with the guide column, one side of each moving frame is fixedly connected with the inner bevel shifting block, and the touch shifting fork slides downwards to push the two inner bevel shifting blocks to move towards the middle.

In a preferred embodiment of the present invention, the connector further comprises a sealing pad, wherein the sealing pad for protecting the conducting wire is clamped on one side of the upper housing, and the sealing pad is close to one side of the guiding column.

The beneficial effects of the invention are as follows: 1. the auxiliary action of the bevel guide block on the socket can limit and guide the left side and the right side of pins on the electronic component, so that the pins on the electronic component are prevented from being inclined, and the purpose of error prevention is achieved.

2. Through observing corresponding colour on the double-colored indicator board, can play the effect of instructing to whether the stitch that can learn on this electronic components fast appears the skew, make things convenient for operating personnel in time to correct, and then improve the rate of accuracy to electronic components test data.

3. When the stirring piece rotates, the inner side of the outer shell can be knocked to make an alarm, so that an operator can be reminded, and the testing efficiency of electronic components can be improved.

4. Under the cooperation of righting subassembly and spacing subassembly, can go up the front side rear side of stitch and carry out supplementary guide to electronic components for stitch on the electronic components can be smooth pass the jack and switch on with the contact shell fragment contact, further reach the purpose of mistake proofing.

5. Under the mutually supporting effect of slide bar, reset spring and roof, can provide the convenience for operating personnel with the electronic components auto-eject that the test finishes.

6. Promote n type connecting rod lapse can make to touch the shift fork and promote two interior bevel connection shifting blocks and remove to the centre, and then drive and remove the needle foot laminating on frame and the gyro wheel and the electronic components and cooperate with the limiting plate, further supplementary electronic components tests, and then reaches the purpose of mistake proofing.

Drawings

Fig. 1 is a schematic perspective view of a first perspective structure according to the present invention.

Fig. 2 is a schematic perspective view of a second perspective view according to the present invention.

FIG. 3 is a schematic view of a first partial body structure according to the present invention.

FIG. 4 is a schematic view of a second partial body structure according to the present invention.

Fig. 5 is a schematic perspective view of a cue assembly of the present invention.

Fig. 6 is a schematic partial perspective view of the cue assembly of the present invention.

Fig. 7 is a schematic perspective view of a warning device according to the present invention.

FIG. 8 is a schematic view of a first partially separated body structure of the warning device of the present invention.

Fig. 9 is a schematic diagram of a second partially-separated body structure of the warning device of the present invention.

Figure 10 is a schematic perspective view of a centralizer assembly of the invention.

Fig. 11 is a schematic perspective view of the spacing assembly of the present invention.

Fig. 12 is a schematic perspective view of the ejection assembly of the present invention.

Fig. 13 is a perspective view of the press-in assembly of the present invention.

The labels in the figures are: 1-upper shell, 2-socket, 21-jack, 3-bevel guide block, 4-lower shell, 41-observation hole, 5-mounting seat, 6-lead, 7-contact spring piece, 71-sealing pad, 8-prompting component, 81-mounting frame, 82-distance sensor, 83-lower mounting plate, 84-electromagnet, 85-upper mounting plate, 86-sliding frame, 87-bicolor indicator plate, 88-permanent magnet, 9-warning component, 91-outer shell, 92-mounting shell, 93-motor, 94-connecting shaft, 95-lug, 96-toggle piece, 10-centering component, 101-guide rail, 102-moving frame, 103-roller, 11-limiting component, 111-guide rod, 112-limiting plate, 113-elastic piece, 12-ejection component, 121-sliding rod, 122-reset spring, 123-top plate, 13-press-in component, 131-guide column, 132-n type connecting rod, 133-extrusion plate, 134-touch block, 135-inner bevel touch block, and 100-shifting fork electronic component.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

The utility model provides an integrated circuit electronic test socket with mistake proofing subassembly, as shown in fig. 1-9, including last casing 1, socket 2, bevel connection guide block 3, casing 4 down, mount pad 5, wire 6, contact shell fragment 7, suggestion subassembly 8 and warning subassembly 9, the up end middle part of going up casing 1 has socket 2 through the screw rigid coupling, the even interval connection of mode that the front and back both sides all pass through the draw-in groove joint has bevel connection guide block 3, the front and back both sides of socket 2 all evenly spaced apart has jack 21, jack 21 is used for supplying on the electronic components 100 stitch to pass, every jack 21 all is located between two bevel connection guide block 3 that are close to each other, the middle part joint of going up casing 1 downside has lower casing 4, the even interval of front side of casing 4 is opened has observation hole 41, observation hole 41 makes things convenient for operating personnel to look over the mistake proofing instruction, the left and right sides of bottom all have two mount pads 5 through the screw rigid coupling in casing 4, it has wire 6 to run through the formula joint between two mount pads 5 of front side and between two mount pads 5 of rear side of mount pads 5 with the quick interval on the preceding side of the contact components 5, wire 6 can be used for the corresponding suggestion subassembly 7 of the corresponding contact shell fragment of contact shell fragment 5 of the corresponding contact component 7 of the corresponding contact on the suggestion subassembly of the corresponding contact shell fragment of the corresponding contact of the corresponding jack 5 of the corresponding contact on the suggestion subassembly of the bottom of the corresponding contact shell fragment for the corresponding contact of the jack 5, it has the corresponding contact shell fragment 7 on the suggestion subassembly to provide the contact shell fragment on the contact of the lower shell fragment 7 on the lower side of the bottom of the lower shell fragment 7, the contact components 7, the corresponding contact components 6.

When operating personnel need test electronic components 100, can insert this test socket with electronic components 100 on, in this operation process, can guide the stitch on electronic components 100 through the mating reaction of every two piece adjacent bevel connection guide blocks 3, avoid the stitch on electronic components 100 to appear the skew, reach the purpose of mistake proofing, make electronic components 100's stitch can pass jack 21 and contact shell fragment 7 contact smoothly, thereby can switch on electronic components 100 and wire 6, reach the purpose of testing electronic components 100. Make operating personnel conveniently look over the result of electronic components 100 test through suggestion subassembly 8, whether the stitch that reminds operating personnel to pay attention to electronic components 100 that can be timely through warning subassembly 9 appears the skew to this accuracy that improves operating personnel to electronic components 100 test.

As shown in fig. 1, 2, 5 and 6, the prompt component 8 includes a mounting bracket 81, a distance sensor 82, a lower mounting plate 83, an electromagnet 84, an upper mounting plate 85, a sliding bracket 86, a two-color indicator board 87 and a permanent magnet 88, the mounting bracket 81 is welded between the left side and the right side of the bottom in the lower housing 4, the distance sensors 82 are uniformly distributed at intervals on the upper portion of the mounting bracket 81, the distance sensors 82 are used for sensing the distance between pins on the electronic component 100, and further determining whether the pins on the electronic component 100 are inclined, the lower mounting plate 83 is fixedly connected to the front side of the bottom in the lower housing 4 through screws, the electromagnet 84 is uniformly bonded to the upper end face of the lower mounting plate 83 at intervals, the electromagnet 84 is electrically connected to the distance sensors 82, the upper mounting plate 85 is welded to the middle of the front side of the inner side of the lower housing 4, the sliding housing 86 is uniformly spaced on the upper mounting plate 85, the permanent magnet 88 is bonded to the lower end face of each sliding bracket 86, the permanent magnet 88 is contacted to the upper end face of the permanent magnet 84, the electromagnet 84 and the permanent magnet 88 generates a repulsive force, the two-color indicator board 87 is clamped to the two-color indicator board 87, the two-color indicator board 87 is used for identifying the two-color indicator board to facilitate the personnel to observe the upper color indicator board 41, and observe the two-color indicator board 41.

When the pins of the electronic component 100 are inserted into the corresponding insertion holes 21, the distance sensor 82 can sense the distance between the pins and the corresponding pins, and match the sensed data with a preset value, when the data of a certain pin sensed by the distance sensor 82 does not match the preset value, it indicates that the corresponding pin on the electronic component 100 deflects to the front side or the rear side, so that the electromagnet 84 corresponding to the pin is automatically energized and conducted, the conducted electromagnet 84 generates a repulsive force with the permanent magnet 88, so that the permanent magnet 88 drives the sliding frame 86 and the two-color indicator board 87 to slide upwards, because the green area of the upper part of the two-color indicator board 87 initially corresponds to the observation hole 41, and after the two-color indicator board 87 slides upwards, the red area of the two-color indicator board 87 corresponds to the observation hole 41, and the indicator is red, so that an operator only needs to check the color on the two-color indicator board 87 through the observation hole 41, and can quickly know whether the pins of the electronic component 100 test the pins on the socket are deflected, so that the operator can correct the lower part of the electronic component 100 in time, and thus the accuracy of the data of the electronic component 100 can be improved. After the electronic component 100 is tested, the electronic component 100 is taken out, the electromagnet 84 is controlled to be closed after the distance sensor 82 senses that the data is recovered to be normal, and the permanent magnet 88 drives the sliding frame 86 and the double-color indicating plate 87 to slide downwards for resetting.

As shown in fig. 1, 2, 7, 8 and 9, the warning assembly 9 includes an outer housing 91, an installation housing 92, a motor 93, a connection shaft 94, a bump 95 and a toggle member 96, the outer housing 91 is connected to the left side of the upper housing 1 in a clamping manner, the outer housing 91 is made of metal, and can make a sound when being knocked, so as to remind an operator, the installation housing 92 is fixedly connected to the front side of the outer housing 91 through bolts, the motor 93 is installed in the installation housing 92 through bolts, the connection shaft 94 is rotatably installed between the front side and the rear side inside the outer housing 91, the front end of the connection shaft 94 is sleeved with an output shaft of the motor 93 through splines, the bumps 95 are uniformly distributed on the connection shaft 94 at intervals, the toggle member 96 is hinged to the protruding end of each bump 95, and the toggle member 96 can be knocked inside the outer housing 91 after swinging.

When the distance sensor 82 senses that any stitch on the electronic component 100 is deflected, the motor 93 can be automatically started to drive the bump 95 and the stirring piece 96 to rotate through the connecting shaft 94, the stirring piece 96 can knock the inner side of the outer shell 91 in the rotating process, the outer shell 91 can make an alarm bell, convenience is provided for an operator, the possibility of mistaken looking when the operator checks the double-color indicator board 87 is prevented, and the test accuracy of the electronic component 100 is improved. After the electronic component 100 is taken out after the test is finished, the distance sensor 82 senses that the data is recovered to be normal, the control motor 93 is turned off, and the outer shell 91 stops sounding the alarm bell.

As shown in fig. 2, the device further comprises a sealing gasket 71, and the sealing gasket 71 is clamped in the middle of the right side surface of the upper shell 1.

The seal 71 can protect and seal the lead 6.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2 and 10, the electronic component device further includes a centering assembly 10, the centering assembly 10 includes guide rails 101, moving frames 102 and rollers 103, the guide rails 101 are fixedly connected to the left and right sides of the upper end surface of the upper housing 1 through bolts, two moving frames 102 are slidably mounted between the two guide rails 101, the two moving frames 102 are distributed front and back, the rollers 103 are rotatably arranged in the middle of the upper sides of the two moving frames 102 at uniform intervals, and the rollers 103 can assist in guiding pins on the electronic component 100.

As shown in fig. 1, fig. 2 and fig. 11, further include limiting assembly 11, limiting assembly 11 includes guide rods 111, limiting plate 112 and elastic component 113, the left and right sides of the upper end surface of upper casing 1 are all fixedly connected with two guide rods 111 through screws, four guide rods 111 are all located between two guide rails 101, limiting plate 112 is sleeved between two guide rods 111 on the front side and between two guide rods 111 on the rear side in a sliding manner, limiting plate 112 is used for guiding pins on auxiliary electronic component 100, elastic component 113 is sleeved on each guide rod 111, the upper end of elastic component 113 is connected with the lower end surface of limiting plate 112, and the lower end of elastic component 113 is connected with the lower end of guide rods 111.

When an operator inserts electronic component 100 into the test socket for testing, the movable frames 102 on the front side and the rear side move towards the middle part through pushing, pins on the electronic component 100 can be assisted under the matching action of the rollers 103 and the limiting plates 112, and the pins are prevented from deviating towards the front side or the rear side, so that the accuracy of testing the electronic component 100 is further improved. Can extrude limiting plate 112 gliding downwards at the in-process that electronic components 100 inserted downwards, elastic component 113 will be compressed, can play the effect of buffering to electronic components 100, and after electronic components 100 test finished taking out, will drive limiting plate 112 gliding upwards under the effect of elastic component 113 elasticity and reset.

Example 3

On the basis of embodiment 2, as shown in fig. 1, fig. 2 and fig. 12, the socket further includes an ejection assembly 12, the ejection assembly 12 includes sliding rods 121, return springs 122 and a top plate 123, two sliding rods 121 slidably penetrate through the left and right sides of the middle portion of the socket 2, the top plate 123 is fixedly connected between the upper ends of the four sliding rods 121 through bolts, the top plate 123 is n-shaped, the lower end of each sliding rod 121 is sleeved with a return spring 122, the upper end of the return spring 122 is connected with the lower end face of the socket 2, and the lower end of the return spring 122 is connected with the lower end of the sliding rod 121.

When operating personnel inserted this test socket with electronic components 100, electronic components 100 will contact with the up end of roof 123, make roof 123 drive slide bar 121 lapse, reset spring 122 will be stretched, can be further play the effect of buffering to electronic components 100, when needs take out electronic components 100, only need loosen electronic components 100, will drive slide bar 121 and extrusion roof 123 upwards slide and reset under the effect of reset spring 122 pulling force, make electronic components 100 can pop out automatically, reach the purpose of conveniently taking out, need not to take out electronic components 100 that finishes through the manual work, further provide the convenience for operating personnel.

Example 4

On the basis of embodiment 3, as shown in fig. 1, 2 and 13, the electronic component further includes a press-in component 13, a guide column 131, an n-type connecting rod 132, a pressing plate 133, a trigger shifting fork 134 and an inner bezel shifting block 135 of the press-in component 13, the guide column 131 is fixedly connected to the middle of the right side of the upper end surface of the upper casing 1 through a bolt, the n-type connecting rod 132 is slidably sleeved on the guide column 131, damping force exists between the n-type connecting rod 132 and the guide column 131, the pressing plate 133 is fixedly connected to the lower end surface of the left side of the n-type connecting rod 132 through a bolt, the pressing plate 133 is used for pressing the electronic component 100, the trigger shifting fork 134 is fixedly connected to the lower end of the right side of the n-type connecting rod 132 through a bolt, the trigger shifting fork 134 is slidably matched with the guide column 131, the inner bezel shifting block 135 is welded to the lower ends of the right sides of the two moving frames 102, and the trigger shifting fork 134 slides downward to push the inner bezel shifting block 135 to move toward the middle.

When inserting electronic component 100 into this test socket and testing, can press down stripper plate 133 and make n type connecting rod 132 can drive and touch shift fork 134 and make a lapse with two interior bevel connection shifting blocks 135, stripper plate 133 will promote electronic component 100 and insert downwards on this test socket and test, when touching shift fork 134 and two interior bevel connection shifting blocks 135 contacts, will promote two interior bevel connection shifting blocks 135 simultaneously and slide to the centre, make the removal frame 102 of both sides can drive the contact of stitch on gyro wheel 103 and the electronic component 100 and cooperate with limiting plate 112, the stitch of supplementary electronic component 100 passes jack 21 smoothly and contacts with contact shell fragment 7 and switches on, and then reach the purpose of mistake proofing. After the electronic component 100 is tested, the extrusion plate 133 is pulled to slide upwards, the n-type connecting rod 132 drives the trigger shifting fork 134 to slide upwards and reset, so that the trigger shifting fork 134 is separated from the inner bezel shifting block 135, the electronic component 100 can be automatically ejected under the action of the ejection assembly 12, and finally, an operator only needs to take away the tested electronic component 100.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An integrated circuit electronic test socket with error-proof components comprises an upper shell (1), a socket (2), a lower shell (4), mounting seats (5), leads (6) and contact elastic pieces (7), wherein the socket (2) is fixedly connected to the upper shell (1), jacks (21) are uniformly spaced on the socket (2), the lower shell (4) is clamped to one side of the socket (2) far away from the upper shell (1), observation holes (41) are uniformly spaced on the lower shell (4), at least two mounting seats (5) are fixedly connected to the lower shell (4), the leads (6) are in through type clamping between the mounting seats (5), one end of each lead (6) is in through type clamping to one side of the upper shell (1), the contact elastic pieces (7) are uniformly spaced on the leads (6) between the mounting seats (5), each contact elastic piece (7) is positioned right below the corresponding jack (21), pins on the electronic components (100) can be inserted downwards to be in contact with the corresponding contact elastic pieces (7), the socket is characterized by further comprising a guide oblique port (3) for guiding the plug components (3) and an oblique port (3) for uniformly acting on the electronic components at intervals, every jack (21) all is located between two bevel connection guide blocks (3) that are close to each other, installs on lower casing (4) and is used for indicateing suggestion subassembly (8) of mistake proofing information, goes up one side of casing (1) and installs warning subassembly (9) that are used for the mistake proofing to remind.

2. The socket according to claim 1, wherein the indication member (8) comprises a mounting bracket (81), distance sensors (82), a lower mounting plate (83), electromagnets (84), an upper mounting plate (85), a sliding frame (86), a two-color indicating plate (87) and permanent magnets (88), the mounting bracket (81) is fixedly connected to the lower housing (4), the distance sensors (82) are uniformly distributed on the mounting bracket (81) at intervals, the lower housing (4) is fixedly connected to the lower mounting plate (83), the mounting plate (83) is located at one side of the mounting bracket (81), the electromagnets (84) are fixedly connected to the lower mounting plate (83) at uniform intervals, the electromagnets (84) are electrically connected to the distance sensors (82), the upper mounting plate (85) is fixedly connected to the lower housing (4), the upper mounting plate (85) is close to one side of the mounting plate (83), the sliding frame (86) is slidably sleeved on the upper mounting plate (85) at uniform intervals, the permanent magnets (88) are fixedly connected to one side of each sliding frame (86), one side of the permanent magnets (88) is in contact with the permanent magnets (84), the two-color indicating plate (88) is electrically connected to the sliding frame (86), and the electromagnet (87) is used for generating a repulsive force, the two-color indicator board (87) is distributed with green and red colors in an up-down symmetrical mode, and the two-color indicator boards (87) in the green area respectively correspond to the observation holes (41).

3. The integrated circuit electronic test socket with the mistake proofing assembly as claimed in claim 2, characterized in that, the warning assembly (9) comprises an outer shell (91), an installation shell (92), a motor (93), a connecting shaft (94), a bump (95) and a toggle piece (96), the outer shell (91) is connected to one side of the upper shell (1) in a clamping manner, the outer shell (91) is close to one side of the lower shell (4), the installation shell (92) is fixedly connected to one side of the outer shell (91), the motor (93) is installed on the installation shell (92), the connecting shaft (94) is installed on the outer shell (91) in a rotating manner, one end of the connecting shaft (94) is connected with an output shaft of the motor (93), the bumps (95) are uniformly distributed on the outer shell (94) at intervals, the protruding end of each connecting shaft bump (95) is hinged to the toggle piece (96), and the outer shell (91) can be knocked after the toggle piece (96) swings.

4. The socket for testing the integrated circuit electronics with the error-proofing assembly according to claim 3, further comprising a centering assembly (10) for assisting in guiding the outer side of the pin on the electronic component (100), wherein the centering assembly (10) comprises a guide rail (101), a movable frame (102) and rollers (103), the guide rail (101) is fixedly connected to the upper housing (1), one side of the guide rail (101) close to the socket (2), at least two movable frames (102) are slidably mounted on the guide rail (101), and the rollers (103) are rotatably arranged on each movable frame (102) at uniform intervals.

5. The integrated circuit electronic test socket with the error-proofing assembly according to claim 4, further comprising a limiting assembly (11) for assisting in guiding the inner side of the pin on the electronic component (100), wherein the limiting assembly (11) comprises guide rods (111), limiting plates (112) and elastic members (113), at least two guide rods (111) are fixedly connected to the upper shell (1), each guide rod (111) is located at one side close to the guide rail (101), the limiting plates (112) for preventing the pins of the electronic component (100) from deflecting towards the inner side are slidably sleeved between the guide rods (111), each guide rod (111) is sleeved with an elastic member (113), one end of each elastic member (113) is connected with the corresponding limiting plate (112), and the other end of each elastic member (113) is connected with the corresponding guide rod (111).

6. The integrated circuit electronic test socket with the error-proofing assembly according to claim 5, further comprising an ejection assembly (12) capable of automatically ejecting the tested electronic component (100), wherein the ejection assembly (12) comprises a sliding rod (121), a return spring (122) and a top plate (123), the sliding rod (121) penetrates through the socket (2) in a sliding manner, the top plate (123) is fixedly connected to one end of the sliding rod (121), the return spring (122) is sleeved on the other end of the sliding rod (121), one end of the return spring (122) is connected with the socket (2), and the other end of the return spring (122) is connected with the sliding rod (121).

7. The socket according to claim 6, further comprising a press-in component (13) for assisting the electronic component (100) to press, wherein the press-in component (13) comprises a guide post (131), an n-type connecting rod (132), a pressing plate (133), a trigger shifting fork (134) and an inner bezel shifting block (135), the upper housing (1) is fixedly connected with the guide post (131), the guide post (131) is away from one side of the outer housing (91), the guide post (131) is slidably sleeved with the n-type connecting rod (132), one side of the n-type connecting rod (132) is fixedly connected with the pressing plate (133), the other side of the n-type connecting rod (132) is fixedly connected with the trigger shifting fork (134), the trigger shifting fork (134) is slidably matched with the guide post (131), one side of each movable frame (102) is fixedly connected with the inner bezel shifting block (135), and the trigger shifting fork (134) can slide downwards to push the two inner bezel shifting blocks (135) to move towards the middle.

8. The socket for testing electronic integrated circuits with error proofing assembly according to claim 7, further comprising a sealing gasket (71), wherein the sealing gasket (71) is clamped on one side of the upper housing (1), and the sealing gasket (71) is close to one side of the guiding column (131).

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