CN210187770U - Flexible high-efficiency test equipment - Google Patents

Abstract

The utility model discloses a flexible high-efficiency test device, which comprises a frame, a test board arranged on the frame, a test component arranged on one side of the test board, and a test carrier storage component arranged on the other side of the test component; the test assembly comprises a loading plate which can be arranged on the test bench in a sliding mode, a plurality of product carriers which are arranged on the loading plate, and a test head device which is arranged on the test bench in a lifting mode and corresponds to the loading plate, wherein a test head is arranged at the position, corresponding to the test head device, of each product carrier; the product carrier comprises a plurality of specification and model carriers. The utility model discloses a test efficiency of product is guaranteed to the structure settlement of a plurality of sensor simultaneous testing, simultaneously through the carrier of switching different models, can realize the test of different products, realizes the flexibility settlement of test, reduces occuping of production resource.

Description

Flexible high-efficiency test equipment

Technical Field

The utility model relates to an automated production technique and automated production equipment, in particular to automated testing technique specifically are a high-efficient test equipment of flexibility.

Background

In the modern production process, detection after product preparation is one of the steps required by production, and is used for removing unqualified products to ensure the qualified rate of the products, but the product test at the present stage has the problem to be solved; if the product that has the pin, the test mode of present stage adopts artifical or automatic test, and the automatic test mode that uses at present stage corresponds different product specification and needs to set up multiple test equipment, seriously occupies production resource, and the test equipment of present stage is for testing single product simultaneously, and efficiency of software testing is low, can't satisfy high-efficient production needs.

Therefore, it is necessary to provide an efficient test apparatus to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high-efficient test equipment of flexibility, its structure through a plurality of sensor simultaneous testing is set for, guarantees the efficiency of software testing of product, and can the compatible test of different specification products.

The technical scheme is as follows:

a flexible high-efficiency test device comprises a rack, a test board arranged on the rack, a test assembly arranged on one side of the test board, and a test carrier storage assembly arranged on the other side of the test assembly;

the test assembly comprises a loading plate which can be arranged on the test bench in a sliding mode, a plurality of product carriers which are arranged on the loading plate, and a test head device which is arranged on the test bench in a lifting mode and corresponds to the loading plate, wherein a test head is arranged at the position, corresponding to the test head device, of each product carrier; the product carrier comprises a plurality of specification and model carriers.

Further, the loading plate comprises a corresponding groove of the carrier device, a power-on module arranged on the corresponding groove of the carrier device in a lifting manner, and a corresponding pin of the carrier loading.

Furthermore, the test head comprises a test board, a test block arranged on the test board, and a plurality of test modules arranged on the test block, wherein each test module comprises a test pin corresponding to a product.

Furthermore, the product carrier comprises a specification type A carrier, the specification type A carrier comprises a carrier underframe A and a plurality of product loading platforms A arranged on the carrier underframe A, the product loading platforms are correspondingly provided with product corresponding grooves A, a product positioning slide block is slidably arranged on the carrier underframe A, and the bottom end of the carrier underframe A is provided with corresponding grooves A corresponding to carrier loading corresponding pins and a butt joint electrifying module A corresponding to the electrifying module.

Further, the product carrier comprises a specification type B carrier, the specification type B carrier comprises a carrier chassis B and a product loading table B arranged on the carrier chassis B, a plurality of product corresponding grooves B are correspondingly arranged on the product loading table B, a pressing plate is correspondingly arranged on the product loading table B, a plurality of test corresponding grooves are uniformly formed in the pressing plate, the edge of each two adjacent test corresponding grooves presses and holds a test product, and the bottom end of the carrier chassis B is provided with a corresponding groove B corresponding to a carrier loading corresponding pin and a butt joint electrifying module B corresponding to an electrifying module.

Furthermore, a loading plate is connected to the driving cylinder, and a sliding stable structure consisting of a linear slide rail and a slide block is arranged between the loading plate and the test table.

Furthermore, a lifting frame is arranged on the test board, a lifting cylinder is arranged on the lifting frame, and the test head device is connected to the lifting cylinder.

Furthermore, the test carrier storage assembly comprises a plurality of carrier storage cabinets arranged on the rack.

Furthermore, the test bench is also provided with a product loading operation area, a test qualified piece storage area and a test unqualified product storage area.

Furthermore, a man-machine operation interface and an acousto-optic alarm are arranged on the machine frame.

Compared with the prior art, the utility model discloses a test efficiency of product is guaranteed to the structure settlement of a plurality of sensor simultaneous testing, simultaneously through the carrier that switches different models, can realize the test of different products, realizes the flexibility settlement of test, reduces occuping of production resource.

Drawings

Fig. 1 is one of the schematic structural diagrams of the embodiment of the present invention.

Fig. 2 is a second schematic structural diagram of the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a loading plate according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a test head according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a specification type a carrier according to an embodiment of the present invention.

Fig. 6 is a second schematic structural diagram of a specification type a carrier according to an embodiment of the present invention.

Fig. 7 is a third schematic structural view of a specification type a carrier according to an embodiment of the present invention.

Fig. 8 is a schematic structural diagram of a specification type B carrier according to an embodiment of the present invention.

Fig. 9 is a second schematic structural diagram of a specification type B carrier according to an embodiment of the present invention.

Fig. 10 is a third schematic structural view of a specification type B carrier according to an embodiment of the present invention.

Detailed Description

Example (b):

referring to fig. 1 to 2, the present embodiment shows a flexible and efficient testing apparatus, which includes a rack 1, a testing platform 11 disposed on the rack 1, a testing component 2 disposed on one side of the testing platform 11, and a testing carrier storage component 3 disposed on the other side of the testing component 2;

the testing assembly 2 comprises a loading plate 21 which is slidably arranged on the testing platform 11, four product carriers 22 which are arranged on the loading plate 21, and a testing head device 4 which is arranged on the testing platform 22 in a lifting manner and corresponds to the loading plate 21, wherein a testing head 41 is arranged at the testing head device 4 corresponding to each product carrier 22; and the product carriers 22 include several specification and model carriers.

The loading plate 21 is connected to the driving cylinder 211, and a slide stabilizing structure 212 composed of a linear slide rail and a slider is further provided between the loading plate 21 and the test table 11.

A lifting frame 111 is arranged on the test platform 11, a lifting cylinder 112 is arranged on the lifting frame 111, and the test head device 4 is connected to the lifting cylinder 112.

Referring to fig. 3, the loading plate 21 includes a carrier device corresponding slot 213, a power-on module 214 disposed on the carrier device corresponding slot 213 in a liftable manner, and a carrier loading corresponding pin 215.

Referring to fig. 4, the test head 41 includes a test board 411, a test block 412 disposed on the test board 411, and five test modules 413 disposed on the test block 412, wherein the test modules 413 include test pins corresponding to products.

Product carrier 22 includes specification model a carrier 5:

referring to fig. 5-7, a specification and model a carrier 5 includes a carrier chassis a51 and a plurality of product loading platforms a52 disposed on a carrier chassis a51, a corresponding slot a53 is disposed on the product loading platform a52, a product positioning slider 54 is slidably disposed on the carrier chassis a51, and a corresponding slot a55 corresponding to a corresponding carrier loading pin 215 and a docking and energizing module a56 corresponding to the energizing module 214 are disposed at the bottom end of the carrier chassis a 51.

Product carrier 22 includes specification model B carrier 6:

referring to fig. 8-10, specification type B carrier 6 includes a carrier chassis B61, and a product loading platform B62 disposed on carrier chassis B61, where product loading platform B62 is correspondingly provided with a plurality of product corresponding grooves B63, product loading platform B63 is correspondingly provided with a pressing plate 64, the pressing plate 64 is uniformly provided with a plurality of test corresponding grooves 65, edges of two adjacent test corresponding grooves 65 press and hold test product 100, and the bottom end of carrier chassis B61 is provided with a corresponding groove B66 corresponding to carrier loading corresponding pin 215 and a butt-joint energizing module B67 corresponding to energizing module 214.

The test carrier storage assembly 3 comprises a plurality of carrier storage cabinets arranged on the rack.

The test bench 11 is also provided with a product loading operation area 7, a test qualified sheet storage area and a test unqualified product storage area.

The frame 1 is provided with a man-machine operation interface 8 and an audible and visual alarm 9.

It should be noted that the number and specification of the product carriers 22 in this embodiment are only for illustration and not for limitation.

The detection steps are as follows:

1) selecting product carriers 22 of the required product specification models and the number of the required product carriers 22 according to the requirements;

2) loading of products 100 on the product carrier 22 in the product loading operation area 7;

3) correspondingly fixing the product carrier 22 loaded with the product 100 on the loading plate 21;

4) the loading plate 21 drives the product carrier 22 loaded with the product 100 to move to the lower part of the test head 41;

5) the test head 41 descends, the pins of the model 100 are connected through the test pins, meanwhile, the electrifying module 214 ascends, and the product is electrified for testing;

6) and respectively placing qualified products and unqualified products after testing.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (10)

1. The utility model provides a high-efficient test equipment of flexibility which characterized in that: the test device comprises a rack, a test board arranged on the rack, a test component arranged on one side of the test board, and a test carrier storage component arranged on the other side of the test component;

the test assembly comprises a loading plate which can be arranged on the test bench in a sliding mode, a plurality of product carriers which are arranged on the loading plate, and a test head device which is arranged on the test bench in a lifting mode and corresponds to the loading plate, wherein a test head is arranged at the position, corresponding to the test head device, of each product carrier; the product carrier comprises a plurality of specification and model carriers.

2. The flexible high-efficiency test device as claimed in claim 1, wherein: the loading plate comprises a corresponding groove of the carrier device, a power-on module arranged on the corresponding groove of the carrier device in a lifting way, and a corresponding pin for loading the carrier.

3. The flexible high-efficiency test device as claimed in claim 2, wherein: the test head comprises a test board, a test block arranged on the test board, and a plurality of test modules arranged on the test block, wherein each test module comprises a test pin corresponding to a product.

4. A flexible high efficiency test apparatus according to any one of claims 1 to 3, wherein: the product carrier comprises a specification model A carrier, the specification model A carrier comprises a carrier underframe A and a plurality of product loading platforms A arranged on the carrier underframe A, product corresponding grooves A are correspondingly arranged on the product loading platforms, a product positioning slide block is slidably arranged on the carrier underframe A, and the bottom end of the carrier underframe A is provided with corresponding grooves A corresponding to carrier loading corresponding pins and a butt joint electrifying module A corresponding to the electrifying module.

5. The flexible high-efficiency test device as claimed in claim 4, wherein: the product carrier comprises a carrier of specification type B, the carrier of specification type B comprises a carrier chassis B, a product loading table B is arranged on the carrier chassis B, a plurality of product corresponding grooves B are correspondingly arranged on the product loading table B, a pressing plate is correspondingly arranged on the product loading table B, a plurality of test corresponding grooves are uniformly formed in the pressing plate, the edge of two adjacent test corresponding grooves is pressed and held by a test product, and the bottom end of the carrier chassis B is provided with a corresponding groove B corresponding to a corresponding pin loaded by the carrier and a butt joint electrifying module B corresponding to the electrifying module.

6. The flexible high-efficiency test device as claimed in claim 5, wherein: the loading plate is connected with the driving cylinder, and a sliding stable structure consisting of a linear slide rail and a slide block is arranged between the loading plate and the test table.

7. The flexible high-efficiency test device as claimed in claim 6, wherein: be provided with the crane on the testboard, be provided with the lift cylinder on the crane, test head device connects in the lift cylinder.

8. The flexible high-efficiency test device according to claim 7, wherein: the test carrier storage assembly comprises a plurality of carrier storage cabinets arranged on the rack.

9. A flexible high efficiency test apparatus according to any one of claims 5 to 8, wherein: the test bench is also provided with a product loading operation area, a test qualified sheet storage area and a test unqualified product storage area.

10. A flexible high efficiency test apparatus according to any one of claims 5 to 8, wherein: the frame is provided with a man-machine operation interface and an acousto-optic alarm.

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