CN116996425A - Network card inserting and taking detection equipment - Google Patents

Abstract

The invention belongs to the technical field of network card detection equipment, in particular to network card insertion and extraction detection equipment, which comprises a detection machine body, wherein a plurality of detection slots are uniformly formed in the detection machine body, and detection elements are arranged in the detection slots; the side wall of the detection machine body is provided with a control machine body, the side wall of the detection machine body is provided with working grooves, the detection grooves are uniformly distributed on the inner wall of one side of the inside of the working grooves, and the fixing plate is embedded into the inside of the working grooves; the invention reduces the abrasion to the contact part of the detection slot and the joint in the inserting and taking process by a more correct connection mode, and ensures the normal service life of the detection equipment and the wireless network card; and the accurate insertion and extraction detection also enables the connection between the wireless network card and the detection element of the detection equipment to be more stable, reduces the connection instability caused by the insertion misoperation, enables the detection result to be more accurate, and also improves the detection efficiency of the network card.

Description

Network card inserting and taking detection equipment

Technical Field

The invention belongs to the technical field of network card detection equipment, and particularly relates to network card insertion detection equipment.

Background

The wireless network card belongs to a terminal wireless network device, can help a computer to be connected to a wireless network, and is a common portable wireless network card which presents a USB-shaped structure and has no self-powered power, and the wireless network card plays a role after being identified by inserting a connector into an interface on the network device when in use; in order to ensure the qualification rate of the wireless network card products, sampling detection is required to be carried out on the wireless network card finished products after the wireless network card products are obtained in the production process;

in order to ensure the normal function, the simple detection is to insert the wireless network card into the interface of the detection equipment, judge whether the wireless network card can be identified normally through the detection element and the network identification system in the detection equipment, connect the network, and judge whether the wireless network card is qualified; however, in the mass production process, even if sampling detection is performed, the number of wireless network cards to be detected is quite remarkable; the network card is inserted and taken through manpower, so that the manpower is consumed;

in addition, in the process of manually drawing and inserting the wireless network card, because of uneven stress, the moving track is not completely overlapped with the extending direction inside the interface in the process of inserting the connector, and friction collision occurs between the side wall of the connector and the inner wall of the interface; especially when the plug-in is not noticed, the plug-in reverse problem occurs, the connector collides with the detection element in the socket, the connector or the socket is easily damaged, and the service life of the detection equipment is influenced; and unstable error insertion also can influence the detection result, causes the false detection result to increase, so that repeated detection is needed, the detection times are increased, and the detection efficiency is influenced.

Disclosure of Invention

In order to make up for the deficiency of the prior art, solve the above-mentioned technical problem; the invention provides network card insertion and extraction detection equipment.

The technical scheme adopted for solving the technical problems is as follows: the invention provides network card inserting and taking detection equipment which comprises a detection machine body, wherein a plurality of detection slots are uniformly formed in the detection machine body, and detection elements are arranged in the detection slots; the detection device comprises a detection device body, a network card and a control button, wherein the side wall of the detection device body is provided with the control device body, the control device body is provided with a display interface and a control button, the display interface is used for displaying the detection condition of the network card, and the control button is used for controlling the operation of each component of the detection device; the side wall of the detection machine body is provided with working grooves, the detection grooves are uniformly distributed on the inner wall of one side of the inside of the working grooves, and the fixing plate is embedded into the inside of the working grooves;

the surface of the fixing plate is uniformly provided with a sliding groove, and an opening at one end of the sliding groove close to the detection slot is opposite to the detection slot; the inside sliding connection of spout has the fixing base, fixing base tip is provided with the fixed slot, waits to detect the main part of network card and imbeds the fixed slot, wait to detect the joint of network card and stretch out the fixed slot is just to detect the slot.

Preferably, limit rods are arranged on two sides of the fixed plate, limit holes are formed in positions, opposite to the limit rods, of the inner walls of the working grooves, limit blocks are slidably arranged in the limit holes, and springs are arranged between the limit blocks and the inner walls of the limit holes;

the inner wall of the working groove is provided with first telescopic equipment, the telescopic end of the first telescopic equipment is provided with a push plate, and the push plate is contacted with one end, far away from the detection slot, of the fixed plate;

the push plate is provided with second telescopic equipment, and the second telescopic equipment is used for pushing the fixing seat to slide along the sliding groove.

Preferably, the two sides of the fixing seat are provided with sliding blocks, and the sliding blocks are embedded into positioning grooves arranged on the two sides of the sliding groove and are in sliding connection with the positioning grooves.

Preferably, the detection slot comprises a fixed slot and a detection slot, the fixed slot is positioned at the inner wall part of the working slot, and the detection slot is positioned on the inner wall of the fixed slot; the left side and the right side of the opening part of the fixed slot are provided with sealing doors, the sealing doors are rotationally connected with the side wall of the fixed slot through rotating shafts, and torsion springs are arranged at the connecting parts of the rotating shafts.

Preferably, the positioning groove extends to the end part of the fixing plate, which is close to one side of the detection slot, and is communicated with the outside, and a clamping groove is formed in the inner wall of the positioning groove;

the sliding blocks on two sides of the fixed seat extend towards the direction close to the detection slot, extend out of the end part of the fixed seat and extend to the position close to the end part of the joint; the part of the sliding block, which is connected with the fixed seat, belongs to a fixed part, and the part of the sliding block, which extends out of the fixed seat, is a limiting part;

the middle part of the fixing part is provided with a clamping block which is embedded into the clamping groove and is in sliding connection with the clamping groove.

Preferably, trigger holes are formed in the inner wall of the fixed slot and located at two sides of the detection slot, the trigger holes are opposite to the end parts of the fixed parts, trigger sensors are arranged in the trigger holes, and the trigger sensors are pressed to start and transmit information of the insertion of the network card to the inside of the control machine body.

Preferably, a guide groove is formed in the middle of the outer side surface of the closed door, the guide groove is transversely formed, and the inner wall of the guide groove is an inclined plane;

and reset blocks are arranged at the end parts, close to the detection slots, inside the clamping grooves and are in sliding connection with the clamping grooves, and the reset blocks are connected with the inner walls of the end parts of the clamping grooves through springs.

Preferably, the fixing seat is formed by splicing two identical fixing half seats, mounting blocks are arranged at two side positions of the inner wall of the fixing groove, and the mounting blocks are embedded into the mounting grooves arranged on the side walls of the network card to fix the network card.

Preferably, the number of the second telescopic devices is the same as the number of the sliding grooves, and the telescopic ends of the second telescopic devices are embedded into the corresponding sliding grooves and are in contact with the corresponding fixing seats.

Preferably, the number of the second telescopic devices is smaller than that of the sliding grooves, connecting rods are fixedly arranged at the end parts of the second telescopic devices, and pushing rods are arranged at positions, corresponding to the sliding grooves, on the connecting rods; the end part of the push rod is embedded into the corresponding sliding groove and is contacted with the fixing seat.

The beneficial effects of the invention are as follows:

1. according to the network card inserting and taking detection device, the connector of the wireless network card is inserted into the detection slot to realize connection, and a detection person can judge whether the connection is normal or not on the detection machine body by connecting the circuit of the detection element in the detection slot; after connection, whether the network is normally connected, network strength and other corresponding indexes are carried out, the data are stored and correspond to the labeled wireless network card, so that later examination is facilitated, and the qualification rate is judged; after the detection is finished, reversely pulling out the wireless network card, directly taking out the fixed plate, and directly taking out a group of wireless network cards detected simultaneously; the fixing plate where the group of wireless network cards to be detected are located is conveniently embedded in the next step, and the detection efficiency is improved.

2. According to the network card inserting and taking detection device, the connectors of the wireless network card along the sliding grooves can be smoothly inserted into the detection slots after being adjusted in advance, so that the situation that the joint parts are damaged due to collision due to the fact that the insertion angle is wrong is effectively avoided; in the process, the abrasion to the contact part of the detection slot and the joint in the inserting and taking process is reduced by a more correct connection mode, and the normal service lives of the detection equipment and the wireless network card are ensured; and the accurate insertion and extraction detection also enables the connection between the wireless network card and the detection element of the detection equipment to be more stable, reduces the unstable connection condition caused by the insertion operation error, enables the detection result to be more accurate, reduces repeated operation caused by the manual operation error, and improves the detection efficiency of the network card.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial cross-sectional view in plan view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is a partial enlarged view at B in FIG. 2;

FIG. 5 is a perspective view of the fixing base and network card of the present invention when mated;

FIG. 6 is a perspective view of the invention with the fixed half mated with the network card;

FIG. 7 is a partial cross-sectional view of the mounting bracket of the present invention in a top view;

fig. 8 is a perspective view of a second telescopic device according to the eighth embodiment of the present invention when the second telescopic device is mated with the fixing plate;

in the figure: the detection machine body 1, the working groove 11, the limiting hole 12, the limiting block 13, the first telescopic device 14, the push plate 141, the second telescopic device 15, the connecting rod 151, the push rod 152, the detection slot 2, the fixing slot 21, the detection slot 22, the closing door 23, the guide slot 231, the rotating shaft 24, the trigger hole 25, the control machine body 3, the display interface 31, the control button 32, the fixing plate 4, the sliding groove 41, the positioning slot 411, the clamping slot 412, the reset block 413, the limiting rod 42, the fixing seat 5, the fixing slot 51, the sliding block 52, the fixing part 521, the limiting part 522, the clamping block 523, the fixing half seat 53, the mounting block 54, the network card 6, the main body 61, the joint 62 and the mounting slot 63.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described with reference to the drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one:

the wireless network card 6 belongs to terminal wireless network equipment, can help a computer to be connected to a wireless network, and the common portable wireless network card 6 presents a USB-shaped structure without a self-powered power supply, and plays a role after identification by inserting a connector 62 into an interface on the network equipment when in use; in order to ensure the qualification rate of the wireless network card 6 product, sampling detection is required to be carried out on the finished product of the wireless network card 6 after the wireless network card 6 product is obtained in the production process;

in order to ensure the normal function, the simple detection is to insert the wireless network card 6 into the interface of the detection equipment, judge whether the wireless network card 6 can be identified normally through the detection element and the network identification system in the detection equipment, connect the network, and judge whether the wireless network card 6 is qualified; however, in the mass production process, even if sampling detection is performed, the number of wireless network cards 6 to be detected is quite remarkable; the network card 6 is inserted and taken through manpower, so that not only is the manpower consumed;

in addition, in the process of manually inserting the wireless network card 6, because of uneven stress, the moving track of the joint 62 is not completely coincident with the extending direction inside the joint in the process of inserting the joint, and friction collision occurs between the side wall of the joint 62 and the inner wall of the joint; especially when the plug-in is not noticed, the plug-in reverse problem occurs, the connector 62 collides with the detection element in the socket, so that the connector 62 or the socket is easily damaged, and the service life of the detection equipment is influenced; in addition, unstable error insertion also affects the detection result, so that the false detection result is increased, repeated detection is needed, the detection times are increased, and the detection efficiency is affected;

in order to effectively solve the problems, as shown in figures 1-7 in the drawings of the specification, the network card inserting and taking detection equipment comprises a detection machine body 1, wherein a plurality of detection slots 2 are uniformly arranged on the detection machine body 1, detection elements are arranged in the detection slots 2, and detection circuits are arranged on the detection elements; the network card 6 is provided with a plurality of detection pins, a detection circuit can read the high-low level combinations of the detection pins to acquire the type code of the network card 6, detection software performs type searching through the read type code to identify the specific type of the network card 6, records and stores the specific type, and detection personnel can also know the specific type through the display interface 31;

the side wall of the detection machine body 1 is provided with a control machine body 3, the control machine body 3 is provided with a display interface 31 and a control button 32, the display interface 31 is used for displaying the detection condition of the network card 6, and the control button 32 is used for controlling the operation of each component of the detection equipment; the side wall of the detection machine body 1 is provided with a working groove 11, the detection slots 2 are uniformly distributed on the inner wall of one side of the inside of the working groove 11, and the fixing plate 4 is embedded into the inside of the working groove 11;

the surface of the fixed plate 4 is uniformly provided with a sliding groove 41, and an opening at one end of the sliding groove 41 close to the detection slot 2 is opposite to the detection slot 2; the inside of the sliding chute 41 is connected with a fixed seat 5 in a sliding way, the end part of the fixed seat 5 is provided with a fixed groove 51, a main body 61 of the network card 6 to be detected is embedded into the fixed groove 51, and a joint 62 of the network card 6 to be detected extends out of the fixed groove 51 and is opposite to the detection slot 2;

the specific working flow is as follows: when the produced wireless network card 6 is required to be detected, on a production line, after the angle of the wireless network card 6 is adjusted, a main body 61 of the wireless network card 6 is embedded into a fixed groove 51 in a fixed seat 5 to realize the combination between the wireless network card 6 and the fixed seat 5, and then the fixed seat 5 is embedded into a sliding groove 41 on a fixed plate 4, so that the movement of the fixed plate 4 can drive a plurality of wireless network cards 6 on the fixed plate to synchronously move, and the plurality of wireless network cards 6 are detected at one time;

after the fixed plate 4 is embedded into the working groove 11 on the detection machine body 1, the sliding groove 41 on the fixed plate 4 corresponds to the corresponding detection slot 2, so that the sliding groove 41 and the detection slot 2 are positioned on the same straight line track; during detection, the fixing plate 4 can be pushed to slide along the working groove 11 manually or through automatic driving equipment, and the fixing plate 4 abuts against the side wall of the detection slot 2; then the fixing seat 5 is sequentially pushed to slide along the sliding groove 41, so that the wireless network card 6 on the fixing seat 5 moves to be close to the detection slot 2 until being transversely embedded into the detection slot 2;

the connector 62 of the wireless network card 6 is inserted into the detection slot 2, so that the connection between the connector 62 and the internal detection element is realized, and a detection personnel can judge whether the connection is normal or not on the detection machine body 1 through the connection of the circuit of the internal detection element of the detection slot 2; after connection, whether the network is normally connected, network strength and other corresponding indexes are carried out, the data are stored and correspond to the labeled wireless network card 6, so that later examination is facilitated, and the qualification rate is judged; after the detection is finished, the wireless network card 6 is reversely pulled out, the fixing plate 4 is directly taken out, and a group of wireless network cards 6 which are detected simultaneously can be directly taken out simultaneously; the fixing plate 4 where the group of wireless network cards 6 to be detected are positioned is conveniently embedded again, so that the detection efficiency is improved;

because the joint 62 of the wireless network card 6 along the sliding groove 41 can be smoothly inserted into the detection slot 2 after being adjusted in advance, the occurrence of error of the insertion angle is effectively avoided, and the joint part is damaged due to collision; in addition, because the sliding groove 41 and the detection slot 2 are positioned on the same linear track, in the moving process of the wireless network card 6, different wireless network cards 6 can be correctly inserted into the detection slot 2 along the fixed moving track due to the limit of the sliding groove 41 on the fixed seat 5, so that the connection is realized; in the process, the abrasion to the contact part of the detection slot 2 and the connector 62 in the inserting and taking process is reduced by a more correct connection mode, and the normal service lives of the detection equipment and the wireless network card 6 are ensured; and the accurate insertion and extraction detection also enables the connection between the wireless network card 6 and the detection element of the detection device to be more stable, reduces the unstable connection condition caused by the insertion operation error, enables the detection result to be more accurate, reduces repeated operation caused by the manual operation error, and improves the detection efficiency of the network card 6.

Embodiment two:

on the basis of the first embodiment, as shown in fig. 1-3 in the drawings of the specification, limiting rods 42 are arranged on two sides of a fixed plate 4, limiting holes 12 are formed in positions, facing the limiting rods 42, of the inner walls of working grooves 11, limiting blocks 13 are slidably arranged in the limiting holes 12, and springs are arranged between the limiting blocks 13 and the inner walls of the limiting holes 12;

the inner wall of the working groove 11 is provided with a first telescopic device 14, the telescopic end of the first telescopic device 14 is provided with a push plate 141, and the push plate 141 is contacted with one end, far away from the detection slot 2, of the fixed plate 4; the push plate 141 is provided with a second telescopic device 15, and the second telescopic device 15 is used for pushing the fixing seat 5 to slide along the sliding groove 41; the two sides of the fixed seat 5 are provided with sliding blocks 52, and the sliding blocks 52 are embedded into positioning slots 411 arranged on the two sides of the sliding chute 41 and are in sliding connection with the positioning slots 411; the first telescopic device 14 and the second telescopic device 15 can be electric telescopic rods in the prior art and are controlled by an intelligent control system in the control machine body 3;

the specific working flow is as follows: on the basis of the specific working flow in the first embodiment, after the fixing plate 4 is embedded into the working groove 11, two sides of the fixing plate 4 are limited by the side wall of the working groove 11, and the fixing plate 4 is opposite to the limiting rods 42 arranged at two side parts of one end of the detection slot 2 and opposite to the limiting holes 12; in the detection process, the first telescopic device 14 is started, the telescopic end stretches and then drives the push plate 141 to push the fixed plate 4 to slide in the working groove 11, the end part of the limiting rod 42 of the fixed plate 4 is embedded into the limiting hole 12, the limiting block 13 is moved and extruded in the limiting hole 12, the movement of the fixed plate 4 is further limited by the cooperation between the limiting rod 42 and the limiting hole 12, a fixed movement track is kept, and the connector 62 of the wireless network card 6 is smoothly aligned and inserted into the detection slot 2; subsequently, the second telescopic device 15 is started to push the fixed seat 5 to move in the sliding groove 41, the sliding blocks 52 on the fixed seat 5 are matched with the positioning grooves 411 arranged on two sides of the sliding groove 41, the network card 6 on the fixed seat 5 is further ensured to move along a stable movement track, the connector 62 of the network card 6 is smoothly embedded into the detection slot 2 and communicated with an internal detection element, and detection work is started;

after the detection is finished, the first telescopic device 14 and the second telescopic device 15 are reset, under the action of a spring in the limiting hole 12, the limiting block 13 pushes the limiting rod 42 to leave the limiting hole 12, so that the fixing plate 4 moves in the direction away from the detection slot 2 in the working slot 11, the sliding block 52 on the fixing seat 5 is limited by the positioning slot 411, the fixing plate 4 is driven to be separated, the network card 6 on the fixing seat 5 is driven to be pulled out of the detection slot 2, the network card 6 is smoothly separated, the automation of the detection inserting process of the network card 6 is realized, the network card 6 is further ensured to be automatically and accurately inserted into the detection slot 2 to be detected, the labor input is reduced, and the detection accuracy is improved.

Embodiment III:

on the basis of the second embodiment, as shown in fig. 1-7 in the drawings of the specification, the detection slot 2 comprises a fixed slot 21 and a detection slot 22, the fixed slot 21 is positioned at the inner wall part of the working slot 11, and the detection slot 22 is positioned on the inner wall of the fixed slot 21; the left side and the right side of the opening part of the fixed slot 21 are provided with a sealing door 23, the sealing door 23 is rotationally connected with the side wall of the fixed slot 21 through a rotating shaft 24, and the connecting part of the rotating shaft 24 is provided with a torsion spring; the positioning slot 411 extends to the end part of the fixing plate 4, which is close to one side of the detection slot 2, and is communicated with the outside, and a clamping slot 412 is formed in the inner wall of the positioning slot 411;

the sliding blocks 52 at the two sides of the fixed seat 5 extend towards the direction approaching the detection slot 2 and extend out of the fixed seat 5 to the front side position of the end part of the connector 62 of the network card 6; the part of the slide block 52 connected with the fixed seat 5 belongs to a fixed part 521, the part extending out of the fixed seat 5 is a limiting part 522, and the length of the limiting part 522 is longer than the length of the joint 62 extending out of the fixed seat 5; a clamping block 523 is arranged at the middle part of the fixing part 521, and the clamping block 523 is embedded into the clamping groove 412 and is in sliding connection with the clamping groove 412;

the specific working flow is as follows: based on the specific working flow in the second embodiment, as the fixing plate 4 abuts against the inner wall of the working groove 11, the second telescopic device 15 is started to push the fixing seat 5 to move along the sliding groove 41; when the fixing seat 5 drives the network card 6 to approach the detection slot 2, the end part of the limiting part 522 extending to the front side of the end part of the joint 62 is firstly contacted with the closing door 23, so that the closing door 23 is pressed and rotated and opened, the fixing seat 5 continues to approach along with the continuous pushing of the second telescopic device 15, the end part of the fixing seat 5 extends out of the sliding groove 41 and is embedded into the fixing slot 21 until the clamping block 523 on the fixing part 521 of the sliding block 52 moves to the end of the clamping groove 412 and is propped against, the sliding block 52 is limited, and the fixing seat 5 stops moving; before the fixed seat 5 stops moving, the end part of the fixed seat 5 provided with the fixed slot 51 is embedded into the fixed slot 21, and the connector 62 therein can be smoothly embedded into the detection slot 22 in the fixed slot 21 and smoothly combined with the detection element in the detection slot 22, so that the network card 6 is connected, and the detection operation is conveniently started;

after the detection is finished, the fixed plate 4 is far away from the detection slot 2 under the pushing of the limiting block 13 in the limiting rod 42; simultaneously, the clamping groove 412 limits the clamping block 523, so that the fixed seat 5 moves backwards synchronously, the connector 62 of the network card 6 is pulled out of the detection groove 22, and the part of the fixed seat 5 embedded into the fixed slot 21 also moves backwards; the end of the limiting part 522 is taken as the last withdrawing part and does not support against the closing door 23 any more, so that the closing door 23 is automatically closed under the action of the torsion spring, thereby closing the inner detection groove 22 and the fixed clamping groove 412, protecting the inner detection element from the invasion of external foreign matters;

when the fixed seat 5 moves, the matching between the clamping block 523 of the fixed part 521 on the sliding block 52 and the clamping groove 412 further ensures that the fixed seat 5 moves along a stable movement track; the end of the fixed seat 5 and the fixed slot 21 are combined and slide, the fixed slot 21 limits and limits the end of the fixed seat 5, so that the joint 62 of the network card 6 can be stably inserted into the detection slot 22, and the joint 62 and the detection slot 22 are combined in the detection slot 22 deep inside the fixed slot 21, so that the joint 62 and the detection slot 22 are stably combined in the connecting process, and the joint 62 and the detection slot 22 of the network card 6 are smoothly combined to perform detection operation; the limiting part 522 extending out of the sliding block 52 pushes the closing door 23 to be opened automatically, the end part of the joint 62 is not needed to push the closing door 23, and damage to the joint 62 is reduced.

Embodiment four:

on the basis of the third embodiment, as shown in fig. 2-7 in the drawings of the specification, trigger holes 25 are formed in the positions, located on two sides of the detection groove 22, of the fixing slot 21, the trigger holes 25 are opposite to the end parts of the limiting parts 522, trigger sensors are arranged in the trigger holes 25, the trigger sensors are pressed and started and transmit information of the network card 6 to the inside of the control machine body 3, the trigger sensors can be pressure sensors, are pressed after being contacted with the limiting parts 522, transmit signals to the inside of the control machine body 3, and prompt that the network card 6 is completely inserted;

the specific working flow is as follows: on the basis of the specific working flow in the third embodiment, after the end part of the limiting part 522 of the sliding block 52 pushes the closing door 23 to open, the end part of the limiting part 522 continues to penetrate into the fixed slot 21 and then is embedded into the trigger hole 25, and the cooperation of the limiting part 522 and the trigger hole 25 further ensures that the fixing seat 5 is along the fixed movement track, so that the connector 62 of the network card 6 can be smoothly inserted into the detection groove 22; by setting the depth of the trigger hole 25, when the end part of the limit part 522 contacts the trigger sensor at the deepest part of the trigger hole 25, the connector 62 of the network card 6 is just smoothly and completely inserted into the detection groove 22, and the trigger sensor sends a signal to the control machine body 3;

the control machine body 3 receives signals to indicate that the network card 6 is fully inserted, and the second telescopic equipment 15 is closed at the moment, so that the situation that the network card 6 is pressed and further inserted into the detection groove 22 to be damaged due to the fact that the second telescopic equipment 15 is not closed in time is avoided; meanwhile, whether the detection equipment recognizes the insertion of the network card 6 is judged, if the triggering sensor detects that the corresponding detection slot 2 has the network card 6 inserted, and the network connection in the detection machine body 1 does not have the network card 6 connection, error reporting is carried out, the network card 6 in the detection slot 2 with problems is marked, and detection personnel are prompted to carry out repeated tests to find out the problem.

Fifth embodiment:

on the basis of the fourth embodiment, as shown in fig. 2-4 in the drawings of the specification, a guide groove 231 is arranged in the middle of the outer side surface of the closing door 23, the guide groove 231 is transversely arranged, and the inner wall of the guide groove 231 is an inclined plane; a reset block 413 is arranged at the end part, close to the detection slot 2, inside the clamping slot 412, the reset block 413 is in sliding connection with the clamping slot 412, and the reset block 413 is connected with the end part of the inner wall of the clamping slot 412 through a spring;

the specific working flow is as follows: on the basis of the specific workflow in the fourth embodiment, when the end of the limiting part 522 contacts the closing door 23, the end of the limiting part 522 firstly contacts the guide groove 231 on the closing surface, and then presses the inclined surface of the inner wall of the guide groove 231, so that the closing door 23 is pressed away from the center direction, and can be smoothly opened; in the process of embedding the limiting part 522, the limiting part 522 always slides along the guide groove 231 on the surface of the closed door 23, and the limiting effect of the guide groove 231 on the limiting part 522 inhibits the deformation of the limiting part 522, so that the fixing seat 5 is further ensured to be smoothly embedded into the fixing clamping groove 412, and the combination between the joint 62 and the detection groove 22 is realized;

in the process that the second telescopic device 15 pushes the fixed seat 5 to slide along the sliding groove 41, the clamping block 523 on the sliding block 52 slides along the clamping groove 412 and contacts the extruded reset block 413 until the end part of the fixed seat 5 is embedded into the fixed clamping groove 412, the connector 62 of the network card 6 is embedded into the detection groove 22 for connection, detection is started, and at the moment, the spring on the reset block 413 is compressed and shortened to half of the original length; after the detection result is finished, the second telescopic device 15 resets, at this moment, the limiting block 13 is connected with the spring to enable the fixed plate 4 to retreat, the spring connected with the resetting block 413 resets, the clamping block 523 is pushed to enable the fixed seat 5 to retreat and reset relative to the sliding groove 41, on one hand, the connector 62 is enabled to be smoothly separated from the detection groove 22, the subsequent detection operation is facilitated, on the other hand, the fixed seat 5 is enabled to move towards the central position of the fixed plate 4 along the sliding groove 41, the connector 62 position of the network card 6 is enabled to be protected in the sliding groove 41, the fixed seat 5 and the connector 62 in the fixed seat are prevented from extending out of the sliding groove 41 and protruding out of the edge position of the fixed plate 4, and therefore in the transfer process, the connector 62 of the network card 6 is easy to collide with other parts to be damaged.

Example six:

on the basis of the first embodiment, as shown in fig. 5-7 in the drawings of the specification, the fixed seat 5 is formed by splicing two identical fixed half seats 53, mounting blocks 54 are arranged at two side parts of the inner wall of the fixed groove 51, and the mounting blocks 54 are embedded into mounting grooves 63 arranged on the side wall of the network card 6 to fix the network card 6;

the specific working flow is as follows: on the basis of the specific workflow in the first embodiment, when the network card 6 is installed, the main body 61 of the network card 6 is embedded into the fixing groove 51 on one fixing half seat 53, the installation groove 63 on one side of the main body 61 and the installation block 54 on the inner wall of the fixing groove 51 are mutually embedded, and then the other fixing half seat 53 is sleeved to form the complete fixing seat 5 and the fixing groove 51, so that the main body 61 of the network card 6 inside is limited; meanwhile, the fixing plate 4 is also obtained by combining two parts, and is disconnected from the middle part of the chute 41, so that the sliding block 52 is conveniently embedded from the opening of the chute 41 at the disconnected part during installation, and the sliding block 52 on the fixing seat 5 is smoothly embedded into the positioning slot 411; then two parts are combined to form a complete fixing plate 4 and a locating slot 411, and a clamping slot 412 in the locating slot 411 enables a clamping block 523 to be limited, so that a fixing seat 5 is limited in a sliding slot 41, and the combined installation reduces the installation difficulty, so that the fixing and limiting of the network card 6 are more convenient.

Embodiment seven:

on the basis of the second embodiment, as shown in fig. 1 of the drawings of the specification, regarding the manner in which the second telescopic device 15 pushes the fixing seat 5, the number of the second telescopic devices 15 may be selected to be the same as the number of the sliding grooves 41, so that the telescopic ends of the second telescopic devices 15 on the push plate 141 are directly embedded into the corresponding sliding grooves 41 and contact with the ends of the corresponding fixing seat 5;

the specific working flow is as follows: on the basis of the specific workflow in the second embodiment, since the fixing seat 5 in each chute 41 has the corresponding second telescopic device 15, the second telescopic devices 15 can be selected to be started in sequence in the detection process, only one of the second telescopic devices 15 pushes the corresponding network card 6 to detect at the same time, then the second telescopic device 15 is reset, and the other one starts to detect, so that the plurality of network cards 6 are detected in turn, when a problem occurs, the problem network card 6 can be screened out immediately and accurately, and the interference of other network cards 6 in detection is avoided; the second telescopic equipment 15 can be started simultaneously to carry out synchronous detection, so that the detection efficiency is improved; therefore, different detection modes can be selected according to detection requirements, the network card 6 on the fixed plate 4 is detected, and the practicability of the detection equipment is improved.

Example eight:

on the basis of the second embodiment, as shown in fig. 8 of the drawings of the specification, when the network card 6 detection device mounted in the detection device can detect a plurality of network cards 6 at the same time, the number of the second telescopic devices 15 can be less than that of the sliding grooves 41, even only one second telescopic device 15 can be arranged, the end part of the second telescopic device 15 is fixedly provided with a connecting rod 151, and a push rod 152 is arranged on a part, corresponding to the sliding grooves 41, of the connecting rod 151; the connecting rods 151 are positioned on the upper side of the fixed plate 4, the end parts of the push rods 152 are embedded into the corresponding sliding grooves 41 to be contacted with the fixed seats 5, and the end parts of the push rods 152 far away from the fixed seats 5 are connected with the connecting rods 151 on the upper side, so that the push rods 152 which are uniformly distributed form a whole and synchronously move;

the specific working flow is as follows: on the basis of the specific workflow in the second embodiment, when the second telescopic device 15 is started, the telescopic end pushes all push rods 152 to synchronously move along the sliding grooves 41 through the connecting rods 151, so that all fixing seats 5 on the fixing plate 4 synchronously move, and the connector 62 of the network card 6 is pushed to be inserted into the detection slot 2 for detection; the connecting rod 151 and the push rod 152 are used for promoting the fixed seat 5 and the network card 6 to synchronously move, so that the detection is accepted, on one hand, the structure is simplified, the number of second telescopic devices 15 is reduced, and the cost is reduced;

on the other hand, in the detection process, the insertion tracks and the force of different network cards 6 synchronously moving on the same fixed plate 4 are kept similar, the difference between external interference factors received by different network cards 6 in the detection process is reduced, and therefore the adverse effect of external factor interference on the accuracy of the detection process of the network cards 6 is reduced, and the detection result is more accurate.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The network card inserting and taking detection device comprises a detection machine body (1), wherein a plurality of detection slots (2) are uniformly formed in the detection machine body (1), and detection elements are arranged in the detection slots (2); the detection device comprises a detection machine body (1), wherein a control machine body (3) is arranged on the side wall of the detection machine body (1), a display interface (31) and a control button (32) are arranged on the control machine body (3), the display interface (31) is used for displaying the detection condition of a network card (6), and the control button (32) is used for controlling the operation of each component of the detection device; the detecting device is characterized in that a working groove (11) is formed in the side wall of the detecting machine body (1), the detecting slots (2) are uniformly distributed on the inner wall of one side of the inside of the working groove (11), and the fixing plate (4) is embedded into the inside of the working groove (11);

a sliding groove (41) is uniformly formed in the surface of the fixed plate (4), and an opening at one end, close to the detection slot (2), of the sliding groove (41) faces the detection slot (2); the inside sliding connection of spout (41) has fixing base (5), fixing base (5) tip is provided with fixed slot (51), and main part (61) of waiting to detect network card (6) are embedded into fixed slot (51), and the joint (62) of waiting to detect network card (6) stretch out fixed slot (51) are just to detect slot (2).

2. The network card insertion detection device according to claim 1, wherein: limiting rods (42) are arranged on two sides of the fixed plate (4), limiting holes (12) are formed in positions, opposite to the limiting rods (42), of the inner walls of the working grooves (11), limiting blocks (13) are slidably arranged in the limiting holes (12), and springs are arranged between the limiting blocks (13) and the inner walls of the limiting holes (12);

the inner wall of the working groove (11) is provided with a first telescopic device (14), the telescopic end of the first telescopic device (14) is provided with a push plate (141), and the push plate (141) is contacted with one end, far away from the detection slot (2), of the fixed plate (4);

the push plate (141) is provided with a second telescopic device (15), and the second telescopic device (15) is used for pushing the fixing seat (5) to slide along the sliding groove (41).

3. The network card insertion detection device according to claim 1, wherein: the sliding blocks (52) are arranged on two sides of the fixed seat (5), and the sliding blocks (52) are embedded into positioning grooves (411) arranged on two sides of the sliding groove (41) and are in sliding connection with the positioning grooves (411).

4. A network card insertion detection device as defined in claim 3, wherein: the detection slot (2) comprises a fixed slot (21) and a detection slot (22), the fixed slot (21) is positioned at the inner wall part of the working slot (11), and the detection slot (22) is positioned on the inner wall of the fixed slot (21); the left side and the right side of the opening part of the fixed slot (21) are provided with sealing doors (23), the sealing doors (23) are rotationally connected with the side wall of the fixed slot (21) through rotating shafts (24), and torsion springs are arranged at the connecting parts of the rotating shafts (24).

5. The network card insertion detection device of claim 4, wherein: the positioning groove (411) extends to the end part of the fixing plate (4) close to one side of the detection slot (2), the positioning groove (411) is communicated with the outside, and a clamping groove (412) is formed in the inner wall of the positioning groove (411);

the sliding blocks (52) on two sides of the fixed seat (5) extend towards the direction close to the detection slot (2), and the sliding blocks (52) extend out of the end part of the fixed seat (5) to a position close to the end part of the joint (62); the part of the sliding block (52) connected with the fixed seat (5) belongs to a fixed part (521), and the part of the sliding block (52) extending out of the fixed seat (5) is a limiting part (522);

a clamping block (523) is arranged at the middle part of the fixing part (521), and the clamping block (523) is embedded into the clamping groove (412) and is in sliding connection with the clamping groove (412).

6. The network card insertion detection device of claim 5, wherein: the inner wall of the fixed slot (21) is provided with a trigger hole (25), and the trigger hole (25) is positioned at the two sides of the detection slot (22); the trigger hole (25) is opposite to the end part of the fixed part (521), and a trigger sensor is arranged in the trigger hole (25), and the trigger sensor is pressed to start and transmits the information of the network card (6) to the inside of the control machine body (3).

7. The network card insertion detection device of claim 5, wherein: a guide groove (231) is formed in the middle of the outer side surface of the sealing door (23), the guide groove (231) is transversely formed, and the inner wall of the guide groove (231) is an inclined surface;

and reset blocks (413) are arranged at the end parts, close to the detection slots (2), inside the clamping grooves (412), the reset blocks (413) are in sliding connection with the clamping grooves (412), and the reset blocks (413) are connected with the inner walls of the end parts of the clamping grooves (412) through springs.

8. The network card insertion detection device according to claim 1, wherein: the fixing seat (5) is formed by splicing two identical fixing half seats (53), mounting blocks (54) are arranged on two side portions of the inner wall of the fixing groove (51), and the mounting blocks (54) are embedded into mounting grooves (63) formed in the side wall of the network card (6) to fix the network card (6).

9. The network card insertion detection device according to claim 2, wherein: the number of the second telescopic devices (15) is the same as the number of the sliding grooves (41), and the telescopic ends of the second telescopic devices (15) are embedded into the corresponding sliding grooves (41) and are in contact with the corresponding fixing seats (5).

10. The network card insertion detection device according to claim 2, wherein: the number of the second telescopic devices (15) is smaller than that of the sliding grooves (41), connecting rods (151) are fixedly arranged at the end parts of the second telescopic devices (15), and pushing rods (152) are arranged on the connecting rods (151) at positions corresponding to the sliding grooves (41); the end part of the push rod (152) is embedded into the corresponding sliding groove (41) and is contacted with the fixing seat (5) therein.