CN211309173U - Multi-station test equipment - Google Patents

Abstract

The utility model relates to a test equipment technical field discloses a multistation test equipment, including material loading conveyor, accredited testing organization, unloading conveying mechanism and package mechanism, wherein: the feeding conveying mechanism is configured to convey the workpiece to the testing mechanism; the testing mechanism comprises a testing jig, a plurality of testing stations are arranged on the testing jig, the testing stations are configured to be capable of bearing a plurality of workpieces, and the workpieces in the plurality of testing stations on the testing jig can be tested simultaneously; the blanking conveying mechanism is configured to convey the tested workpiece to be blanked; the packaging mechanism is configured to package the workpieces that pass the test. The multi-station testing equipment integrates a complete workpiece detection and packaging production line into one piece of equipment, so that the working efficiency is improved; a plurality of test stations are arranged on the test fixture, a plurality of workpieces can be placed on the test fixture, the workpieces can be detected simultaneously, and the detection efficiency and the detection consistency are improved.

Description

Multi-station test equipment

Technical Field

The utility model relates to a test equipment technical field especially relates to a multistation test equipment.

Background

Along with popularization and promotion of WIFI, more and more communication devices are provided with WIFI communication modules, mobile terminals such as smart phones and tablet computers serve as important components of mobile communication networks, and the popularization rate of the WIFI communication modules on the mobile terminals such as the smart phones and the tablet computers is very high. After each device is produced, quality detection and performance test are carried out before sale in the market, and in order to ensure the performance of the WIFI communication module of each device, the performance test is required to be carried out.

At present, manual testing is mostly adopted for testing the performance of the WIFI communication module, only one WIFI communication module can be tested in each test, the manual testing efficiency is low, and the consistency of test data is poor. Therefore, it is highly desirable to design a multi-station testing device, which can detect multiple WIFI communication modules simultaneously, so as to improve the production efficiency and the detection consistency.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide a multistation test equipment has solved current artifical inefficiency that detects WIFI communication module and has detected the poor problem of uniformity.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model relates to a multistation test equipment, including material loading conveyor mechanism, accredited testing organization, unloading conveyor mechanism and packing mechanism, wherein:

the feeding conveying mechanism is configured to convey a workpiece to the testing mechanism;

the testing mechanism comprises a testing jig, a plurality of testing stations are arranged on the testing jig, the testing stations are configured to be capable of bearing the workpieces, and the workpieces in the testing stations on the testing jig can be tested simultaneously;

the blanking conveying mechanism is configured to convey the workpiece subjected to the test to be blanked;

the packaging mechanism is configured to package the workpieces which pass the test.

The multi-station test equipment comprises a feeding conveying mechanism, a test mechanism, a discharging conveying mechanism and a packing mechanism, and a complete workpiece detection and packaging production line is integrated into one equipment, so that the working efficiency is improved; the test fixture is provided with a plurality of test stations which can bear a plurality of workpieces, and the workpieces can be detected simultaneously, so that the detection efficiency and the detection consistency are improved.

As a preferable mode of the multi-station testing apparatus, the multi-station testing apparatus further includes a visual detection mechanism configured to detect a position state of the workpiece conveyed on the feeding conveyor mechanism. The visual detection mechanism can detect the position state of the workpieces conveyed on the feeding conveying mechanism, and can distinguish the workpieces which do not meet the feeding requirements in time according to the position state of the workpieces.

As a preferable scheme of the multi-station testing equipment, the multi-station testing equipment further comprises a material returning mechanism, the material returning mechanism is arranged on one side of the position of the feeding conveying mechanism, and the material returning mechanism is configured to convey and recover the workpieces which do not meet the feeding requirement. The feeding back mechanism can be used for conveying and recycling workpieces which do not meet the feeding requirements, and the workpieces which do not meet the feeding requirements are prevented from entering the testing mechanism.

As a preferable scheme of the multi-station testing equipment, the multi-station testing equipment further comprises a waste conveying mechanism, wherein the waste conveying mechanism is arranged on one side of the blanking conveying mechanism, and the waste conveying mechanism is configured to convey the workpieces which are detected to be unqualified. The waste conveying mechanism can convey the workpieces which are detected to be unqualified, and the workpieces which are detected to be unqualified are recycled.

As a preferable scheme of the multi-station testing apparatus, the testing mechanism further includes a detecting device, the detecting device is disposed above the testing jig, and the detecting device is configured to detect whether the workpiece is in the testing jig and the number of the workpieces. The detection device can detect whether workpieces exist in the test fixture and the number of the workpieces, and then corresponding actions are made according to detection results, so that the automation degree is high.

As a preferred scheme of the multi-station testing device, the testing mechanism includes a testing driving mechanism, two ends of the testing driving mechanism are respectively a feeding end and a discharging end, the feeding end of the testing driving mechanism is arranged close to the feeding conveying mechanism, and the discharging end is arranged close to the discharging conveying mechanism;

the test fixture is arranged on the test driving mechanism, and the test driving mechanism drives the test fixture to reciprocate between the feeding end and the discharging end.

The test driving mechanism is arranged to realize the reciprocating motion of the test fixture between the feeding end and the discharging end, and is convenient to be matched with the feeding conveying mechanism and the discharging conveying mechanism to complete the continuous action.

As a preferred scheme of the multi-station testing device, the testing jig comprises a testing bearing part and a testing buckling part, and a plurality of testing stations are arranged on the testing bearing part; the test buckling part is movable and selectively covered on the test bearing part, the test buckling part blocks the accommodating groove at the test station, and the workpiece is arranged in the accommodating groove.

The workpiece is conveniently borne by the test bearing part and the test buckling part, the test buckling part can block the accommodating groove in the test station, a plurality of closed cavities for accommodating the workpiece are formed, and the closed cavities provide a good test environment for workpiece testing.

As a preferable scheme of the multi-station testing device, the testing mechanisms are provided with a plurality of groups, and the plurality of groups of testing mechanisms are arranged between the feeding conveying mechanism and the discharging conveying mechanism. The test mechanisms are provided with a plurality of groups, so that more workpieces can be tested simultaneously, and the working efficiency is improved; the multiple groups of testing mechanisms are arranged between the feeding conveying mechanism and the discharging conveying mechanism, and are compact in structure and reasonable in arrangement.

As a preferable solution of the multi-station testing apparatus, the feeding conveyor mechanism includes a feeding conveyor assembly and a feeding robot, the feeding conveyor assembly is configured to convey the workpiece, and the feeding robot is configured to convey the workpiece conveyed on the feeding conveyor assembly to the testing mechanism. Can transmit the work piece through material loading conveying component, convenient operation, material loading robot's setting can carry out the removal of position to the work piece, and it is comparatively nimble to remove.

As a preferable scheme of the multi-station testing apparatus, the blanking conveying mechanism includes a blanking robot, and the blanking robot is configured to convey and blank the detected workpiece. The blanking robot can convey the detected workpiece for blanking, so that the position of the workpiece is convenient to transfer.

The utility model discloses beneficial effect of embodiment:

the embodiment of the utility model provides a multistation test equipment, including material loading conveyor mechanism, accredited testing organization, unloading conveyor mechanism and packing mechanism, integrate a complete work piece detection packaging production line in a equipment, improved work efficiency; the test fixture is provided with a plurality of test stations which can bear a plurality of workpieces, and the workpieces can be detected simultaneously, so that the detection efficiency and the detection consistency are improved.

Drawings

Fig. 1 is a schematic structural diagram of a multi-station testing apparatus provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a multi-station testing apparatus according to an embodiment of the present invention showing an internal structure;

FIG. 3 is a schematic view of the multi-station testing apparatus of FIG. 2 showing another angle of internal structure;

fig. 4 is a schematic structural diagram of a test driving mechanism and a test carrying portion according to an embodiment of the present invention;

fig. 5 is a schematic structural view of a support frame provided with a test fastening part and a driving device according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a test carrying portion according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of an internal structure of a test carrying portion showing a limiting structure according to an embodiment of the present invention.

In the figure:

1. a feeding conveyor mechanism; 11. a feeding conveying assembly; 12. a feeding robot;

2. a testing mechanism; 21. testing the jig; 22. testing the driving mechanism; 210. a support frame; 211. a test carrying part; 2111. a test station; 212. testing the buckling part; 213. a drive device; 23. a detection device; 241. an upper limiting column; 242. a lower restraint post; 243. an elastic member;

3. a blanking conveying mechanism; 31. a blanking robot;

4. a packaging mechanism;

5. a visual detection mechanism;

6. a material returning mechanism;

7. a waste conveying mechanism;

8. an operation table;

9. a display device;

10. a baffle plate; 20. and (5) a test bench.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

The utility model relates to a multistation test equipment, as shown in fig. 1-3, including material loading conveyor 1, accredited testing organization 2, unloading conveyor 3 and baling mechanism 4, wherein: the feeding conveyor mechanism 1 is configured to convey a workpiece to the testing mechanism 2; the testing mechanism 2 comprises a testing jig 21, a plurality of testing stations 2111 are arranged on the testing jig 21, the testing stations 2111 are configured to be capable of bearing a plurality of workpieces, and the workpieces in the testing stations 2111 on the testing jig 21 can be tested simultaneously; the blanking conveying mechanism 3 is configured to convey the workpiece subjected to the test to be blanked; the packing mechanism 4 is configured to pack the test-qualified workpieces. In one embodiment, the workpiece is a WIFI communication module, and the performance of the WIFI communication module is detected through the multi-station testing equipment.

The multi-station testing equipment comprises a feeding conveying mechanism 1, a testing mechanism 2, a discharging conveying mechanism 3 and a packing mechanism 4, wherein a complete workpiece detection and packing production line is integrated into one equipment, so that the working efficiency is improved; the test fixture 21 is provided with a plurality of test stations 2111 capable of bearing a plurality of workpieces, and the workpieces can be detected simultaneously, so that the detection efficiency and the detection consistency are improved.

Multistation test equipment still includes testboard 20, and material loading conveyor constructs 1, accredited testing organization 2, unloading conveyor constructs 3 and the packing machine constructs 4 and all sets up on testboard 20, and testboard 20's setting can support a plurality of mechanisms, and the frame is enclosed to the top of testboard 20, is provided with baffle 10 on the frame, can protect the mechanism on the testboard 20, and the appearance is pleasing to the eye.

The feeding conveyor mechanism 1 includes a feeding conveyor assembly 11 and a feeding robot 12, the feeding conveyor assembly 11 is configured to convey the workpiece, and the feeding robot 12 is configured to convey the workpiece conveyed on the feeding conveyor assembly 11 to the testing mechanism 2. Can transmit the work piece through material loading conveying component 11, convenient operation, material loading robot 12's setting can carry out the removal of position to the work piece, and it is comparatively nimble to remove. One side of material loading conveyor 1 is provided with operation panel 8, and operation panel 8 can place the work piece, can place the work piece that is located on operation panel 8 on material loading conveyor 1 through the manual work, can also place the work piece on material loading conveyor 1 through the robot. The baffle 10 is stretched out to the material loading end of material loading conveyor components 11, is convenient for operating personnel to place the work piece at material loading conveyor components 11 from the outside of multistation test equipment.

The blanking conveying mechanism 3 includes a blanking robot 31, and the blanking robot 31 is configured to convey the detected workpiece to blanking. The blanking robot 31 can convey and blank the detected workpiece, so that the position of the workpiece can be conveniently transferred.

All be provided with on material loading robot 12 and the unloading robot 31 and inhale the claw, inhale the claw and can adsorb a plurality of work pieces simultaneously and adsorb and remove, improved work efficiency. The workpiece is adsorbed by the adsorption claw, so that the workpiece is prevented from being damaged in the moving process. In an embodiment, the structures of the feeding robot 12 and the blanking robot 31 are the same, and the specific structures of the feeding robot 12 and the blanking robot 31 are not limited herein, as long as the workpiece can be transferred, which falls within the scope of the present application. In other embodiments, the structures of the feeding robot 12 and the discharging robot 31 may also be set to be different as long as the feeding and discharging of the workpiece can be realized.

In one embodiment, the testing mechanisms 2 are provided in multiple groups, and the multiple groups of testing mechanisms 2 are arranged between the feeding conveying mechanism 1 and the discharging conveying mechanism 3. The test mechanisms 2 are provided with a plurality of groups, so that more workpieces can be tested simultaneously, and the working efficiency is improved; the multiple groups of testing mechanisms 2 are arranged between the feeding conveying mechanism 1 and the discharging conveying mechanism 3, and are compact in structure and reasonable in arrangement. In one embodiment, the testing mechanisms 2 are arranged in two groups, and the two groups of testing mechanisms 2 are arranged between the feeding conveying mechanism 1 and the discharging conveying mechanism 3 in parallel. The test fixture 21 of each group of test mechanisms 2 comprises 8 test stations 2111, and a group of test mechanisms 2 can test 8 workpieces simultaneously, so that the test efficiency is improved.

The multi-station detection equipment further comprises a material returning mechanism 6, wherein the material returning mechanism 6 is arranged on one side of the feeding conveying mechanism 1, and the material returning mechanism 6 is configured to transmit and recover workpieces which do not meet feeding requirements. The feeding back mechanism 6 is arranged to transmit and recover workpieces which do not meet the feeding requirements, and the workpieces which do not meet the feeding requirements are prevented from entering the testing mechanism 2. In one embodiment, the material returning mechanism 6 and the feeding conveying mechanism 1 are arranged in parallel, a conveying connecting part is arranged between the material returning mechanism 6 and the feeding conveying mechanism 1, and workpieces on the feeding conveying mechanism 1 enter the material returning mechanism 6 through the conveying connecting part for recycling. The height of the feeding conveying mechanism 1 is higher than that of the material returning mechanism 6, the conveying connecting part is an inclined plate connected between the feeding conveying mechanism 1 and the material returning mechanism 6, and workpieces which do not meet the feeding requirement can slide to the material returning mechanism 6 along the inclined plate under the action of gravity.

In order to detect whether the workpiece meets the feeding requirement, the multi-station testing equipment further comprises a visual detection mechanism 5, and the visual detection mechanism 5 is configured to detect the position state of the workpiece conveyed on the feeding conveying mechanism 1. The visual detection mechanism 5 can detect the position state of the workpieces conveyed on the feeding conveying mechanism 1, and can timely distinguish the workpieces which do not meet the feeding requirements according to the position state of the workpieces. The visual detection mechanism 5 is arranged above the feeding conveying mechanism 1 and is arranged on the frame. In this embodiment, the visual inspection mechanism 5 is a camera, and can detect the position state of the workpiece, and if the position state meets the requirements, the detection is continued, and if the position state does not meet the requirements, the workpiece is recovered through the material return mechanism 6.

Optionally, the visual inspection mechanism 5 may photograph the placement state of the workpiece and compare the photograph with a preset photograph, where a workpiece meeting the loading requirement is the one that matches the preset photograph, and otherwise, a workpiece that does not meet the loading requirement is the one that does not match the loading requirement.

Multistation check out test set still includes waste material conveying mechanism 7, and waste material conveying mechanism 7 sets up in one side of unloading conveying mechanism 3, and waste material conveying mechanism 7 is configured and will detect unqualified work piece and carry. The waste conveying mechanism 7 can convey the detected unqualified workpieces and recover the detected unqualified workpieces. In this embodiment, the scrap conveyor 7 is a belt conveyor. The output end of the waste conveying mechanism 7 is provided with a recovery device for containing the recovered workpieces.

As shown in fig. 1, 4 and 5, the testing mechanism 2 includes a testing driving mechanism 22, two ends of the testing driving mechanism 22 are respectively a feeding end and a discharging end, the feeding end of the testing driving mechanism 22 is disposed near the feeding conveying mechanism 1, and the discharging end is disposed near the discharging conveying mechanism 3; the testing jig 21 is connected to the testing driving mechanism 22, and the testing driving mechanism 22 drives the testing jig 21 to reciprocate between the feeding end and the discharging end. The test driving mechanism 22 is arranged to realize the reciprocating motion of the test fixture 21 between the feeding end and the discharging end, so that the test fixture can be conveniently matched with the feeding conveying mechanism 1 and the discharging conveying mechanism 3 to complete the continuous action. The test driving mechanism 22 comprises a servo motor and a linear module, optionally, the servo motor is in a loose MSMD042G1U model, the driver is in an MBDHT2510E model, the linear module is repeatedly positioned with a precision of +/-0.05 mm, the stop position of the test bearing part 211 can be accurately positioned, and the test result is stable and reliable.

The test fixture 21 comprises a test bearing part 211 and a test buckling part 212, the test bearing part 211 is connected with a test driving mechanism 22, the test driving mechanism 22 can drive the test bearing part 211 to reciprocate between the feeding end and the discharging end, and a plurality of test stations 2111 are arranged on the test bearing part 211. The test buckling part 212 can be moved and selectively covered on the test bearing part 211, a plurality of accommodating grooves are formed in the test station 2111, workpieces are placed in the accommodating grooves, the test buckling part 212 can block the accommodating grooves in the test station 2111, a plurality of closed cavities are formed, and a good test environment is provided for workpiece testing.

In one embodiment, the testing mechanism 2 further includes a supporting frame 210, the supporting frame 210 is disposed on the testing platform 20, and in one embodiment, the supporting frame 210 is a gantry frame and is stable. The supporting frame 210 is provided with a driving device 213, an output end of the driving device 213 is connected to the testing buckling part 212, and the driving device 213 drives the testing buckling part 212 to approach or leave the testing bearing part 211. When the test bearing part 211 moves to the lower part of the test buckling part 212, the test buckling part 212 is buckled with the test bearing part 211, and the accommodating groove at the test station 2111 is blocked. In this embodiment, when the workpiece is plugged in the accommodating groove, the performance of the workpiece is detected by the test bearing part 211. The drive means 213 is driven by a pneumatic cylinder, the type of which may be selected from machines of the type RDQB 50-50M.

As shown in fig. 6 and 7, the bottom of the test carrying part 211 is provided with a limiting structure, the limiting structure includes an upper limiting column 241, a lower limiting column 242 and an elastic member 243, the elastic member 243 is connected between the upper limiting column 241 and the lower limiting column 242, the upper limiting column 241 is connected with the test carrying part 211, and the lower limiting column 242 is connected with the supporting plate supporting the test carrying part 211. The support plate is slidably engaged with the slide rail of the test platform 20, and when the test carrying portion 211 is engaged with the test engaging portion 212, the upper limiting post 241 compresses the elastic member 243 to be attached to the lower limiting post 242.

As shown in fig. 1, the testing mechanism 2 further includes a detecting device 23, the detecting device 23 is disposed above the testing fixture 21, and the detecting device 23 is disposed on the frame. The retrieval device 23 is arranged above the feeding end of the test driving mechanism 22, and facilitates detection of the fed workpiece. The detection device 23 is configured to detect the presence or absence of the workpiece and the number of workpieces in the test fixture 21. The detection device 23 can detect whether the workpiece is in the test fixture 21 or not and the number of the workpieces, and then corresponding actions are made according to detection results, so that the automation degree is high.

In one embodiment, the feeding and conveying assembly 11, the material returning mechanism 6 and the waste conveying mechanism 7 are all belt conveying mechanisms, and the conveying is stable.

The multi-station test equipment further comprises a control device, the feeding conveying mechanism 1, the test mechanism 2, the discharging conveying mechanism 3, the packing mechanism 4, the material returning mechanism 6, the visual detection mechanism 5, the waste conveying mechanism 7 and the detection device 23 are all electrically connected with the control device, and automatic detection and packing of workpieces can be achieved through the control device. The control device may be disposed inside the test station 20 to make the appearance of the multi-station testing apparatus beautiful.

The multi-station testing equipment further comprises a display device 9, wherein the display device 9 is connected with the control device, can display the existence and the number of the workpieces detected by the detection device 23, and can also display the position state of the workpiece detected by the visual detection mechanism 5. In one embodiment, the display device 9 is disposed outside the baffle 10, so that an operator can monitor the baffle from the outside of the multi-station testing equipment.

The testing process comprises the following steps:

the manual work is in 8 positions on the operation panel, place the work piece on material loading conveyor assembly 11, and material loading conveyor assembly 11 carries the work piece to carry out visual inspection under visual inspection mechanism 5, and the work piece that accords with the material loading requirement is absorbed by material loading robot 12 and is put into test fixture 21, and material loading robot 12 absorbs 4 work pieces at every turn, and the work piece that does not accord with the material loading requirement is carried to manual operation panel 8 below and is taken away by the manual work through feed back mechanism 6.

The test mechanisms 2 are two groups, each test bearing part 211 simultaneously tests 8 workpieces, after loading is completed, the test driving mechanism 22 moves the test bearing part 211 to the lower part of the test buckling part 212, the test bearing part 211 is limited through 4 limiting structures, when the driving device 213 drives the test buckling part 212 to be buckled with the test bearing part 211, the upper limiting column 241 and the lower limiting column 242 compress the elastic piece 243 to enable the upper limiting column 241 and the lower limiting column 242 to be jointed, the test bearing part 211 is limited, the test buckling part 212 and the test bearing part 211 form 8 independent closed cavities, and a good test environment can be provided for workpiece testing. The testing mechanism 2 detects the workpiece.

After the test is completed, the test driving mechanism 22 transfers the test carrying part 211 to the discharging end, the discharging robot 31 takes away the workpiece, the discharging robot 31 places the unqualified workpiece on the waste conveying mechanism 7 and outputs the unqualified workpiece by the waste conveying mechanism 7, the discharging robot 31 conveys the qualified workpiece to the packing mechanism 4, and the packing mechanism 4 packs the workpiece.

In the description herein, it is to be understood that the terms "upper", "lower", "right", and the like are used in a descriptive sense or positional relationship based on the orientation or positional relationship shown in the drawings for convenience of description and simplicity of operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single technical solution, and such description is for clarity only, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments that may be understood by those skilled in the art.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a multistation test equipment, its characterized in that includes material loading conveyor (1), accredited testing organization (2), unloading conveyor (3) and package mechanism (4), wherein:

the feeding conveying mechanism (1) is configured to convey workpieces to the testing mechanism (2);

the testing mechanism (2) comprises a testing jig (21), a plurality of testing stations (2111) are arranged on the testing jig (21), the testing stations (2111) are configured to be capable of bearing the workpieces, and the workpieces in the testing stations (2111) on the testing jig (21) can be tested simultaneously;

the blanking conveying mechanism (3) is configured to convey the workpiece subjected to the test to be blanked;

the packing mechanism (4) is configured to pack the workpieces which pass the test.

2. A multi-station testing apparatus according to claim 1, further comprising a visual inspection mechanism (5), said visual inspection mechanism (5) being configured to detect a position status of the work pieces conveyed on the feeding conveyor mechanism (1).

3. The multi-station testing equipment according to claim 1, further comprising a material returning mechanism (6), wherein the material returning mechanism (6) is arranged on one side of the feeding conveying mechanism (1), and the material returning mechanism (6) is configured to convey and recover the workpieces which do not meet the feeding requirement.

4. The multi-station testing apparatus according to claim 1, further comprising a scrap conveying mechanism (7), wherein the scrap conveying mechanism (7) is disposed at one side of the blanking conveying mechanism (3), and the scrap conveying mechanism (7) is configured to convey the workpieces which are detected to be unqualified.

5. The multi-station testing apparatus according to claim 1, wherein the testing mechanism (2) further comprises a detecting device (23), the detecting device (23) is disposed above the testing jig (21), and the detecting device (23) is configured to detect the presence or absence of the work pieces in the testing jig (21) and the number of the work pieces.

6. A multi-station testing apparatus according to claim 1, wherein the testing mechanism (2) comprises a testing driving mechanism (22), two ends of the testing driving mechanism (22) are respectively a feeding end and a discharging end, the feeding end of the testing driving mechanism (22) is arranged near the feeding conveying mechanism (1), and the discharging end is arranged near the discharging conveying mechanism (3);

the testing jig (21) is arranged on the testing driving mechanism (22), and the testing driving mechanism (22) drives the testing jig (21) to reciprocate between the feeding end and the discharging end.

7. The multi-station testing equipment according to any one of claims 1 to 6, wherein the testing jig (21) comprises a testing bearing part (211) and a testing buckling part (212), and a plurality of testing stations (2111) are arranged on the testing bearing part (211); the test buckling part (212) can be moved and selectively covered on the test bearing part (211), the test buckling part (212) blocks the accommodating groove at the test station (2111), and the workpiece is arranged in the accommodating groove.

8. A multi-station testing apparatus according to any of claims 1-6, wherein the testing mechanisms (2) are arranged in groups, and the groups of testing mechanisms (2) are arranged between the feeding conveyor mechanism (1) and the discharging conveyor mechanism (3).

9. A multi-station testing apparatus according to any of claims 1-6, wherein said feeding conveyor mechanism (1) comprises a feeding conveyor assembly (11) and a feeding robot (12), said feeding conveyor assembly (11) being configured to transport said work pieces, said feeding robot (12) being configured to transport said work pieces transported on said feeding conveyor assembly (11) to said testing mechanism (2).

10. A multi-station testing apparatus according to any of claims 1-6, wherein the blanking conveying mechanism (3) comprises a blanking robot (31), the blanking robot (31) being configured to convey the detected work pieces to blanking.

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