CN219552131U - Mainboard bending strength detection device - Google Patents

Abstract

The utility model provides a device for detecting bending strength of a main board. The pushing mechanism and the detection device are respectively arranged at two sides of the discharging end of the belt conveying mechanism; the classifying collection box is arranged below the detection device to classify and collect the normal main board and the abnormal main board. Through the anti bending strength detection device of mainboard disclosed above, when needs detect the mainboard, only need place the mainboard in belt conveyor, the mainboard just can remove to detection device under push mechanism's cooperation and accomplish the mainboard and detect to classify under the effect of classifying collection box and collect, consequently, the present case compares detection one by one in current manpower, can effectively save a large amount of manpowers, can also avoid the different problem of testing result because of the manpower is buckled the size difference and is brought, has guaranteed the standardization of mainboard quality.

Description

Mainboard bending strength detection device

Technical Field

The utility model relates to the field of circuit board detection, in particular to a device for detecting bending strength of a main board.

Background

The main board is required to have certain anti-falling strength as a core component of a computer, so that the assembled main board is usually required to be detected to verify whether the main board has enough strength, however, because the existing main board anti-bending strength detection device is used for detecting bending of the main board one by manpower, the mode is time-consuming and labor-consuming, and detection results are different due to different bending sizes of the manpower, so that the main board is required to be subjected to the anti-bending strength detection device urgently.

Disclosure of Invention

In view of the above, the embodiment of the utility model provides a device for detecting bending strength of a main board, which solves the problems of time and labor waste caused by the fact that the bending strength of the main board is detected one by adopting manpower in the prior art, and the problems of different detection results caused by different bending sizes of the manpower.

In order to achieve the above object, the embodiment of the present utility model provides the following technical solutions:

a motherboard flexural strength detection device, comprising:

the belt conveying mechanism is used for conveying the main board;

the detection device is used for extruding and detecting the main board;

the pushing mechanism is used for pushing the main board from the belt conveying mechanism to the detection device, and the pushing mechanism and the detection device are respectively arranged at two sides of the discharge end of the belt conveying mechanism;

and the classification collection box is used for classifying and collecting the main board.

Preferably, the pushing mechanism includes: the first push plate and the first push rod are used for driving the first push plate to reciprocate.

Preferably, the first push rod is an electric push rod.

Preferably, the detection device includes: the device comprises a detection table, an extrusion mechanism, a second push rod and a detection plug;

the extrusion mechanism is arranged on the detection table and is used for extruding the main board;

the second push rod and the conveying mechanism are respectively arranged at two ends of the detection table;

the detection plug is arranged at the extending end of the second push rod, and the second push rod is used for driving the detection plug to be inserted into the interface of the main board.

Preferably, the pressing mechanism includes: the third push rod, the second push plate, the fourth push rod and the third push plate;

the third push rod and the fourth push rod are oppositely arranged at two sides of the detection table;

one side of the second push plate is fixed with the extending end of the third push rod, and the other side of the second push plate is provided with a first chute matched with one side of the main plate;

one side of the third push plate is fixed with the extending end of the fourth push rod, and the other side of the third push plate is provided with a second sliding groove matched with the other side of the main plate.

Preferably, the end of the first chute and/or the second chute, which is far away from the conveying mechanism, is a closed end.

Preferably, the classifying collection box comprises: the device comprises a motor, a first collecting bin, a second collecting bin, a first conveying belt, a second conveying belt, a rotating shaft and a turnover plate;

the middle part of the detection table is provided with a through hole for the main board to pass through;

the overturning plate is arranged below the through hole;

the rotating shaft is fixed on the overturning plate and is in transmission connection with the motor;

the motor is used for driving the turnover plate to incline to the first conveying belt or the second conveying belt;

the feeding end of the first conveying belt and the feeding end of the second conveying belt are respectively positioned below two sides of the turnover plate;

the first collecting bin is positioned below the discharge end of the first conveying belt;

the second collection bin is located below the discharge end of the second conveyor belt.

Preferably, the second push rod, the third push rod and the fourth push rod are all electric push rods.

Preferably, the method further comprises: a sensor for detecting the motherboard;

the sensor is arranged at the discharge end of the conveying mechanism.

Based on the detection device for the bending strength of the main board, provided by the utility model, the pushing mechanism and the detection device are respectively arranged at two sides of the discharge end of the belt conveying mechanism; the classifying collection box is arranged below the detection device to classify and collect the normal main board and the abnormal main board. According to the main board bending strength detection device disclosed by the utility model, the main board is conveyed through the belt conveying mechanism, the main board conveyed by the belt conveying mechanism is conveyed to the detection device through the pushing mechanism, the detection device extrudes the main board and detects whether the main board normally operates, and finally the classification collection box classifies and collects the main board according to the normal main board and the abnormal main board according to whether the main board normally operates.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a motherboard bending strength detection device according to an embodiment of the present utility model;

fig. 2 is a schematic structural diagram of a detection device according to an embodiment of the present utility model;

fig. 3 is a schematic diagram of an internal structure of a classification collecting box according to an embodiment of the utility model.

The device comprises a belt conveying mechanism 1, a detecting device 2, a pushing mechanism 3, a classification collecting box 4, a sensor 5 and a main board 6;

pushing mechanism 3: a first push plate 31 and a first push rod 32;

detection device 2: a detection table 21, a through hole 211, an extrusion mechanism 22, a second push rod 23 and a detection plug 24;

extrusion mechanism 22: a third push rod 221, a second push plate 222, a fourth push rod 223, a third push plate 224, and a second chute 225;

classification collecting box 4: the first collecting bin 41, the second collecting bin 42, the first conveying belt 43, the second conveying belt 44, the rotating shaft 45 and the turnover plate 46.

Detailed Description

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

An embodiment of the present utility model provides a device 2 for detecting bending strength of a motherboard 6, referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of the device 2 for detecting bending strength of the motherboard 6, and the device 2 for detecting bending strength of the motherboard 6 includes:

a belt conveying mechanism 1 for conveying a main board 6;

a detecting device 2 for pressing and detecting the main board 6;

a pushing mechanism 3 for pushing the main board 6 from the belt conveying mechanism 1 to the detecting device 2, wherein the pushing mechanism 3 and the detecting device 2 are respectively arranged at two sides of a discharging end of the belt conveying mechanism 1;

a classification collection box 4 for classifying and collecting the main board 6.

It should be noted that, when the pushing mechanism 3 and the detecting device 2 are respectively disposed at two sides of the discharging end of the belt conveying mechanism 1, and then the main board 6 is conveyed by the belt conveying mechanism 1, when the main board 6 moves to the discharging end of the conveying mechanism, the pushing mechanism 3 pushes the main board 6 to the detecting device 2 at the other side of the belt conveying mechanism 1 to detect, because the detecting device 2 can extrude the main board 6 and can detect whether the main board 6 normally operates, when the strength of the main board 6 is enough, the components of the main board 6 will not fall off, the internal circuit will not break, and then can normally operate, the main board 6 is described as normal main board 6, and the components of the main board 6 fall off, and the internal circuit break, and then the main board 6 can not normally operate, and then the main board 6 is described as abnormal main board 6, therefore, after the detecting device 2 detects, whether the main board 6 belongs to normal main board 6, and then the classifying collecting box 4 collects the normal main board 6 together according to whether the normal operation of the main board 6 is classified, that the normal main board 6 is not normally collected together, and the normal main board 6 is further the bending strength detection is realized, and the main board 6 is further realized.

In addition, since the magnitude of the pressing force applied by the detecting device 2 when pressing the main board 6 is set according to the strength set by the main board 6, the magnitude of the pressing force is not limited in the present utility model.

The pushing mechanism 3 and the detection device 2 are respectively arranged at two sides of the discharge end of the belt conveying mechanism 1; the classification collecting box 4 is disposed below the inspection device 2 to classify and collect the normal motherboard 6 and the abnormal motherboard 6. According to the main board 6 bending strength detection device 2 disclosed by the utility model, the main board 6 is conveyed through the belt conveying mechanism 1, the main board 6 conveyed through the belt conveying mechanism 1 is conveyed to the detection device 2 through the pushing mechanism 3, the detection device 2 extrudes the main board 6 and detects whether the main board 6 normally operates, and finally the classification collection box 4 classifies and collects the main board 6 according to the normal main board 6 and the abnormal main board 6 according to whether the main board 6 normally operates, as the main board 6 bending strength detection device 2 only needs to place the main board 6 on the belt conveying mechanism 1, the main board 6 can be moved to the detection device 2 to complete the main board 6 detection under the cooperation of the pushing mechanism 3 and is classified and collected under the action of the classification collection box 4.

Specifically, the pushing mechanism 3 includes: a first push plate 31 and a first push rod 32 for driving the first push plate 31 to reciprocate.

It should be noted that, by setting the first push plate 31 and the first push rod 32 for driving the first push plate 31 to reciprocate, the first push plate 31 props against the main board 6 under the action of the first push rod 32, so as to push the main board 6 to the detection device 2.

Further, the first push rod 32 is an electric push rod.

It should be noted that, the first push rod 32 may be an electric push rod, an air cylinder, or other mechanisms capable of driving the push plate to reciprocate.

Specifically, the detection device 2 includes: a detection table 21, a pressing mechanism 22, a second push rod 23 and a detection plug 24;

the extrusion mechanism 22 is arranged on the detection table 21, and the extrusion mechanism 22 is used for extruding the main board 6;

the second push rod 23 and the conveying mechanism are respectively arranged at two ends of the detection table 21;

the detecting plug 24 is disposed at an extending end of the second push rod 23, and the second push rod 23 is used for driving the detecting plug 24 to be inserted into the interface of the motherboard 6.

It should be noted that, the pressing mechanism 22 is disposed on the detecting table 21, and the second push rod 23 is disposed on the detecting table 21 opposite to the conveying mechanism, so that after the conveying mechanism conveys the motherboard 6 to the detecting table 21, the pressing mechanism 22 can press the motherboard 6, and the second push rod 23 can also insert the detecting plug 24 into the interface of the motherboard 6, so that after the pressing mechanism 22 presses the motherboard 6, whether the motherboard 6 operates normally or not can be detected by the detecting system, and after the detecting system detects the motherboard 6, the second push rod 23 can drive the detecting plug 24 to be pulled out from the interface of the motherboard 6.

Preferably, as shown in fig. 2, the detecting table 21 is provided with a groove, the extruding mechanism 22 is arranged in the groove and is positioned at two sides of the groove, and the second push rod 23 is installed on the detecting table 21 through an installation seat.

Specifically, the pressing mechanism 22 includes: a third push rod 221, a second push plate 222, a fourth push rod 223, and a third push plate 224;

the third push rod 221 and the fourth push rod 223 are oppositely arranged at two sides of the detection table 21;

one side of the second push plate 222 is fixed with the extending end of the third push rod 221, and the other side is provided with a first chute matched with one side of the main board 6;

one side of the third push plate 224 is fixed with the extending end of the fourth push rod 223, and the other side is provided with a second chute 225 matched with the other side of the main board 6.

It should be noted that, the third push rod 221 and the fourth push rod 223 are relatively disposed at two sides of the detection platform 21, one side of the second push rod 222 is fixed to the extending end of the third push rod 221, the other side is provided with a first sliding groove matched with one side of the main board 6, one side of the third push rod 224 is fixed to the extending end of the fourth push rod 223, the other side is provided with a second sliding groove 225 matched with the other side of the main board 6, and further, under the action of the pushing mechanism 3, two ends of the main board 6 are clamped into the first sliding groove and the second sliding groove 225, and the main board 6 can be extruded under the action of the third push rod 221 and the fourth push rod 223, so that the main board 6 is prevented from being separated from the detection platform 21 due to extrusion.

Further, the end of the first chute and/or the second chute 225 remote from the conveyor mechanism is a closed end.

It should be noted that, the end of the first chute and/or the second chute 225 away from the conveying mechanism is a closed end, so that the motherboard 6 can be prevented from moving along with the second push rod 23 when the second push rod 23 drives the detection plug 24 to be pulled out from the interface of the motherboard 6.

Specifically, the sorting collection box 4 includes: the motor, the first collecting bin 41, the second collecting bin 42, the first conveying belt 43, the second conveying belt 44, the rotating shaft 45 and the turnover plate 46;

the middle part of the detection table 21 is provided with a through hole 211 for the main board 6 to pass through;

the flipping plate 46 is disposed below the through hole 211;

the rotating shaft 45 is fixed on the overturning plate 46 and is in transmission connection with the motor;

the motor is used for driving the turnover plate 46 to incline towards the first conveying belt 43 or the second conveying belt 44;

the feeding end of the first conveying belt 43 and the feeding end of the second conveying belt 44 are respectively located below both sides of the flipping plate 46;

the first collecting bin 41 is positioned below the discharge end of the first conveying belt 43;

the second collection bin 42 is located below the discharge end of the second conveyor belt 44.

It should be noted that, by providing a through hole 211 for the main board 6 to pass through in the middle of the detection table 21 and disposing the turnover plate 46 below the through hole 211, the rotation shaft 45 is fixed on the turnover plate 46 and is in transmission connection with the motor; the motor can then drive the flipping plate 46 to tilt towards the first conveyor 43 or towards the second conveyor 44; the feeding end of the first conveying belt 43 and the feeding end of the second conveying belt 44 have been positioned below both sides of the flipping plate 46, respectively; the first collecting bin 41 is positioned below the discharge end of the first conveying belt 43; the second collecting bin 42 is located below the discharging end of the second conveying belt 44, so that when the detecting system detects the main board 6 at the detecting table 21, the third push rod 221 and the fourth push rod 223 drive the second push plate 222 and the third push plate 224 to move to two sides, the main board 6 is separated from the first chute and the second chute 225, the main board 6 falls to the overturning plate 46 through the through hole 211 of the detecting table 21, when the motor drives the overturning plate 46 to incline to the first conveying belt 43, the main board 6 falls on the first conveying belt 43 under the action of self gravity and finally enters the first collecting bin 41 under the action of the first conveying belt 43, and when the motor drives the overturning plate 46 to incline to the second conveying belt 44, the main board 6 falls on the second conveying belt 44 under the action of self gravity and finally enters the second collecting bin 42 under the action of the second conveying belt 44.

It should be further noted that, the first collecting bin 41 may be used for collecting the normal motherboard 6, the second collecting bin 42 is used for collecting the abnormal motherboard 6, and a person skilled in the art may set the first collecting bin according to the requirement, so that the detecting system may control the motor to rotate forward or backward according to the detecting result to realize the tilting direction of the tilting plate 46.

Further, the second push rod 23, the third push rod 221 and the fourth push rod 223 are all electric push rods.

The second push rod 23, the third push rod 221 and the fourth push rod 223 may be electric push rods, or may be other mechanisms capable of having expansion and contraction, such as a cylinder, a hydraulic cylinder, or the like.

Further, the main board 6 bending strength detecting device 2 further includes: a sensor 5 for detecting the main board 6;

the sensor 5 is arranged at the discharge end of the conveying mechanism.

It should be noted that, by arranging the sensor 5 for detecting the main board 6 at the discharge end of the mechanism on the tree, the pushing mechanism 3 can be controlled to push the main board 6 to the detection device 2 after the main board 6 contacts with the sensor 5, so as to realize automatic transfer of the main board 6.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a mainboard bending strength detection device which characterized in that includes:

the belt conveying mechanism is used for conveying the main board;

the detection device is used for extruding and detecting the main board;

the pushing mechanism is used for pushing the main board from the belt conveying mechanism to the detection device, and the pushing mechanism and the detection device are respectively arranged at two sides of a discharge end of the belt conveying mechanism;

and the classification collection box is used for classifying and collecting the main board.

2. The motherboard flexural strength testing device of claim 1 wherein the pushing mechanism comprises: the device comprises a first push plate and a first push rod used for driving the first push plate to reciprocate.

3. The motherboard flexural strength testing apparatus of claim 2 wherein the first pushrod is an electric pushrod.

4. The motherboard flexural strength testing device of claim 1 wherein said testing device comprises: the device comprises a detection table, an extrusion mechanism, a second push rod and a detection plug;

the extruding mechanism is arranged on the detection table and is used for extruding the main board;

the second push rod and the conveying mechanism are respectively arranged at two ends of the detection table;

the detection plug is arranged at the extending end of the second push rod, and the second push rod is used for driving the detection plug to be inserted into an interface of the main board.

5. The motherboard flexural strength testing device of claim 4 wherein said compression mechanism comprises: the third push rod, the second push plate, the fourth push rod and the third push plate;

the third push rod and the fourth push rod are oppositely arranged at two sides of the detection table;

one side of the second push plate is fixed with the extending end of the third push rod, and the other side of the second push plate is provided with a first chute matched with one side of the main board;

one side of the third push plate is fixed with the extending end of the fourth push rod, and a second sliding groove matched with the other side of the main board is formed in the other side of the third push plate.

6. The device for detecting bending strength of a main board according to claim 5, wherein one end of the first chute and/or the second chute, which is far away from the conveying mechanism, is a closed end.

7. The motherboard flexural strength testing device of claim 5 wherein said sort collection bin comprises: the device comprises a motor, a first collecting bin, a second collecting bin, a first conveying belt, a second conveying belt, a rotating shaft and a turnover plate;

the middle part of the detection platform is provided with a through hole for the main board to pass through;

the turnover plate is arranged below the through hole;

the rotating shaft is fixed on the overturning plate and is in transmission connection with the motor;

the motor is used for driving the turnover plate to incline to the first conveying belt or the second conveying belt;

the feeding end of the first conveying belt and the feeding end of the second conveying belt are respectively positioned below two sides of the turnover plate;

the first collecting bin is positioned below the discharging end of the first conveying belt;

the second collecting bin is located below the discharging end of the second conveying belt.

8. The motherboard flexural strength testing apparatus of claim 5 wherein said second, third and fourth pushers are all electric pushers.

9. The motherboard flexural strength testing device of claim 1 further comprising: a sensor for detecting the motherboard;

the sensor is arranged at the discharge end of the conveying mechanism.