CN216900647U - Digital product testing device assembly - Google Patents

Abstract

The utility model relates to the technical field of test equipment, in particular to a digital product test device assembly. A digital product testing apparatus assembly comprising: a test tool apparatus comprising: the test tool assembly comprises a test tool assembly, a first test equipment moving mechanism, a second test equipment moving mechanism and a third test equipment moving mechanism. The test tool assembly includes: the adjusting mechanism is connected with the tool group and used for adjusting the distance between two adjacent tools; the position relation of the test tool equipment in the first direction, the second direction and the third direction is adjusted through the first test equipment moving mechanism, the second test equipment moving mechanism and the third test equipment moving mechanism. The digital product testing device assembly has the following advantages that: the universality is improved, the position adjustment is automatically realized in the whole testing process, the testing is automatically carried out, the human resources are saved, the product cost is reduced, the operability is improved, and the testing efficiency is improved.

Description

Digital product testing device assembly

Technical Field

The utility model relates to the technical field of test equipment, in particular to a digital product test device assembly.

Background

At present, digital products are widely developed and applied to the scope of people in various aspects of life and work. Especially, mobile phones, tablet computers and the like are favored by users. With the development of technologies, the functions of mobile phones and tablet computers are getting stronger, and the mobile phones and tablet computers are continuously getting newer and developing various technologies to meet the increasing requirements of users. However, the enhancement of the functions of mobile phones and tablet computers also increases the content of the test processes in factory manufacturing.

Various manufacturers have developed various testing devices for testing digital products. However, at present, test equipment of most manufacturers is developed according to respective test projects, and the universality is poor. In the testing process, in order to save the cost of equipment, many operations are carried out manually, a large amount of manpower is needed, the labor cost is increased, the total product cost is improved, the operation is difficult, and the testing efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention aims to provide a digital product testing apparatus assembly, which adopts a plurality of testing stations, wherein a testing tool assembly realizes position adjustment through a moving mechanism in three directions, adjusts the distance between tools through an adjusting mechanism, automatically connects a plug connector on a digital product through a plug-in device, connects a power supply and transmits data, and the plug connector can realize movement in three directions, thereby solving the problems of poor universality, waste of human resources, increase of product cost, difficulty in operation, reduction of testing efficiency, and the like.

In order to achieve the purpose, the technical scheme of the utility model is realized as follows:

a digital product testing device assembly, comprising: a test tool apparatus comprising:

a test tool assembly comprising:

a tool set comprising two or more tools;

the adjusting mechanism is connected with the tool group and used for adjusting the distance between two adjacent tools;

the first testing equipment moving mechanism is connected with the testing tool assembly and can drive the distance between the testing tool assembly and the digital product in a first direction;

the second test equipment moving mechanism is connected with the first test equipment moving mechanism and drives the first test equipment moving mechanism to move in a second direction;

and the third test equipment moving mechanism is connected with the second test equipment moving mechanism and drives the second test equipment moving mechanism to move in a third direction.

Further, the tool comprises a test head and an air cylinder, and the air cylinder drives the test head to stretch and retract along a first direction.

Furthermore, the testing tool assembly comprises m tool groups which are arranged side by side, and m is more than or equal to 1;

each tool group is arranged in a row by 1 fixed tool and n-1 movable tools, wherein n is more than or equal to 2;

one of said adjustment mechanisms is associated with each row of said moving means of m of said sets of means.

Further, the test tool assembly further comprises a substrate;

the adjusting mechanism comprises a first slide rail and a transmission assembly, the first slide rail comprises a first rail and a first slide block, the first slide block is connected with the transmission assembly, and the first rail is fixed on the substrate;

the moving tool is fixed on the first sliding block;

the base plate is provided with a round hole and a long hole, the fixing tool penetrates through the round hole, and the moving tool penetrates through the long hole.

Further, the digital product testing device assembly further includes:

the clamping device is arranged close to the tool in the first direction and comprises a clamping mechanism, the clamping mechanism comprises a clamping plate assembly, the clamping plate assembly comprises a fixed clamping plate and a movable clamping plate, and the fixed clamping plate clamps one end, provided with the interface, of the digital product;

the fixed splint is U-shaped and is formed by arranging two tooth parts at two ends of a flat-plate-shaped fixed plate;

the insertion port is exposed through the middle of the two tooth parts.

Further, the clamping mechanism further comprises a second slide rail, and the second slide rail comprises a second rail and a second sliding block;

the clamping mechanism further comprises a bracket, the second rail is fixed on the bracket, and the second sliding block can slide along the second rail;

the fixed plate of the fixed clamping plate is fixed at one end of the second track, and the movable clamping plate is fixed on the second sliding block.

Furthermore, more than two clamping devices are arranged, and each clamping device is matched with one tool group.

Further, the digital product testing device assembly further includes:

grafting equipment is close to the solid fixed splint sets up, grafting equipment includes:

the first plugging device moving mechanism drives the plugging device to move in a first direction, the third plugging device moving mechanism is connected with the first plugging device moving mechanism, and the third plugging device moving mechanism can slide relative to the first plugging device moving mechanism in a third direction;

grafting equipment still includes bayonet joint mechanism, bayonet joint mechanism includes:

the fixing seat is fixed on the third plugging equipment moving mechanism;

the plug clamp is used for clamping the plug;

and the fixed seat is connected with the plug connector clamp through the second plug device moving mechanism, and the plug connector clamp moves along a second direction through the second plug device moving mechanism.

Furthermore, each clamping device is provided with one plugging device in a matching way.

Further, the digital product testing device assembly further includes:

a stent, comprising:

a base plate to which the clamping apparatus is secured;

at least three upright posts are arranged and fixed on the bottom plate;

the inserting equipment is fixed on the upright post;

the test tool apparatus is secured to the top end of the column.

Compared with the prior art, the digital product testing device assembly has the following advantages:

this technical scheme advantage lies in setting up a plurality of test stations, the adjustment of position is realized through the moving mechanism of three direction to the testing tool subassembly, adjust the distance between each instrument through adjustment mechanism, automatic connection plug on digital product through grafting equipment, connect power and transmission data, and, the removal of three direction can be realized to grafting equipment, the test of multiple test item has been realized through a equipment, the commonality has been improved, position adjustment is realized to whole testing process is automatic, the test is automatic to be gone on, manpower resources have been saved, the cost of product has been reduced, the operability has been improved, and the efficiency of software testing is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a perspective view of a digital product testing device assembly according to an embodiment of the present invention;

FIG. 2 is a perspective view of a test tool apparatus according to an embodiment of the present invention;

FIG. 3 is a perspective view of a test tool assembly according to an embodiment of the present invention;

figure 4 is a perspective view of a gripping apparatus according to an embodiment of the present invention;

FIG. 5 is a perspective view of a clamping mechanism according to an embodiment of the present invention;

FIG. 6 is a perspective view of a retaining splint according to an embodiment of the present invention;

fig. 7 is a perspective view of a plugging device according to an embodiment of the present invention;

fig. 8 is a perspective view of a connector according to an embodiment of the present invention.

Description of reference numerals:

100-clamping device, 110-clamping device, 111-clamping device, 1111-clamping device, 11111-clamping plate, 11112-tooth part, 1112-mobile clamping plate, 112-second slide rail, 1121-second slide block, 1122-second slide rail, 120-bracket, 200-test tool device, 210-first test device mobile device, 220-second test device mobile device, 230-third test device mobile device, 240-test tool device, 241-tool, 2411-test head, 2412-cylinder, 242-adjusting device, 2421-transmission device, 2422-first slide block, 2423-first rail, 243-substrate, 300-plugging device, 310-first plugging device mobile device, 320-plugging head mechanism, 321-a fixed seat, 322-a second plugging device moving mechanism, 323-a plugging connector clamp, 324-a plugging connector, 330-a third plugging device moving mechanism, 400-a digital product, 500-a frame, 510-a bottom plate and 520-a column. I-a first direction, II-a second direction, III-a third direction.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

The descriptions in this document referring to "first", "second", "upper", "lower", etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," "upper," "lower," may explicitly or implicitly include at least one of the feature. In addition, the technical solutions in the embodiments may be combined with each other, but it is necessary that a person skilled in the art can realize the combination, and the technical solutions in the embodiments are within the protection scope of the present invention.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1 and 2, a digital product testing apparatus assembly includes: test tool apparatus 200 comprising: a test tool assembly 240, a first test equipment movement mechanism 210, a second test equipment movement mechanism 220, and a third test equipment movement mechanism 230.

As shown in fig. 3, the test tool assembly 240 includes: a tool set and an adjustment mechanism 242. The tool set includes more than two tools 241. And an adjusting mechanism 242 connected to the tool group for adjusting the distance between two adjacent tools 241.

The first testing device moving mechanism 210 is connected to the testing tool assembly 240, and the first testing device moving mechanism 210 can drive the distance between the testing tool assembly 240 and the digital product 400 in the first direction I.

And a second test device moving mechanism 220 connected to the first test device moving mechanism 210, wherein the second test device moving mechanism 220 drives the first test device moving mechanism 210 to move in the second direction II.

And a third test device moving mechanism 230 connected to the second test device moving mechanism 220, wherein the third test device moving mechanism 230 drives the second test device moving mechanism 220 to move in the third direction III. Preferably, the first direction I, the second direction II and the third direction III are perpendicular to each other.

By enabling adjustment of the position of the test tool apparatus 200 in three directions, the tool 241 can be adjusted to the test position of the digital product 400. The distance between the tools 241 is adjusted by an adjustment mechanism 242 so that the tools can be adjusted to the position of more than two test points.

The structure of the testing apparatus of this embodiment is described by taking a mobile phone (the testing tool apparatus 200 of this embodiment is also suitable for testing other digital products such as tablet computers, display screens, digital cameras, etc.) key (other items such as touch screens, cameras, etc. that can also test digital products) test as an example. The mobile phone is vertically fixed, so that the volume +, the volume-and the on-off keys on the side face of the mobile phone face to the direction of the tool, and the three tools respectively correspond to the three keys. The test tool assembly 240 is moved to approximately the position of the three keys by movement of the first test device movement mechanism 210, the second test device movement mechanism 220, and the third test device movement mechanism 230 in three directions. The distance between the three tools is adjusted through the adjusting mechanism 242, so that the three tools are respectively aligned with the three keys, the first testing device moving mechanism 210 is started to move the testing tool assembly 240 towards the key direction, and the key is pressed for testing.

The test tool device 200 of the embodiment realizes the automatic movement of the test tool assembly 240 in three directions, adjusts the position, automatically adjusts the distance between the tools 241, aligns the test points, and automatically tests the mobile phone. Through installing different instruments, multiple test works can be carried out, the universality is improved, the position adjustment is automatically realized in the whole test process, the test is automatically carried out, the human resources are saved, the product cost is reduced, the operability is improved, and the test efficiency is improved.

Specifically, as shown in fig. 3, the tool 241 includes a test head 2411 and an air cylinder 2412, and the test head 2411 is driven to extend and retract along a first direction I by the air cylinder 2412.

The two or more tools 241 are respectively connected to one air cylinder 2412, and the extension and retraction of each tool 241 are respectively operated to test different forces, pressing times and the like of different keys or test each key, so that the test work is flexible.

Further, the testing tool assembly 240 includes m tool groups arranged side by side, where m is greater than or equal to 1. Each tool group is arranged in a row by 1 fixed tool and n-1 movable tools, wherein n is more than or equal to 2. One of the adjustment mechanisms 242 is associated with each row of the moving tools of the m tool sets.

One tool 241 is fixed, and the distance between the other tools and the tool can be adjusted by taking the tool 241 as a reference, so that the adjustment is convenient. The plurality of mobile tools in the same row are adjusted through the adjusting mechanism 242, so that the structure of the testing tool assembly 240 is simplified, the same keys of different mobile phones can be tested simultaneously, and the testing efficiency is improved.

Further, the test tool assembly 240 further includes a substrate 243. The adjusting mechanism 252 includes a first slide rail and a driving component 2421, the first slide rail includes a first rail 2423 and a first slide block 2422, the first slide block 2422 is connected to the driving component 2421, and the first rail 2423 is fixed on the base plate 243. The moving means is fixed to the first slide 2422. A circular hole and a long hole are formed in the base plate 243, the fixing tool penetrates through the circular hole, and the moving tool penetrates through the long hole.

For one embodiment, the work transfer assembly 2421 comprises a motor and a screw assembly linked to the click, and a nut engaged with the screw is coupled to the first slide 2422. The power transmission assembly 2421 may be other conventional mechanisms such as an air cylinder, and will not be described herein. The long hole is arranged on the base plate, so that the position of the moving tool can be moved conveniently.

Further, the digital product testing device assembly, as shown in fig. 1 and fig. 4, further includes: clamping device 100, is close to in first direction I tool 241 sets up, includes fixture 110, as shown in fig. 5, fixture 110 includes splint subassembly 111, splint subassembly 111 includes fixed splint 1111 and removal splint 1112, fixed splint 1111 centre gripping the one end that sets up the interface of digital product 400. As shown in fig. 6, the fixing plate 1111 has a U-shape and is configured by providing two tooth portions 11112 at both ends of a flat fixing plate 11111. The plug interface is exposed through the middle of the two teeth 11112.

The socket of the mobile phone is connected with the data line, so that a power supply can be provided for the mobile phone, a continuous power supply can be provided for the mobile phone during testing, and the situation that the power of the mobile phone is cut off in the testing process and the testing result are influenced due to too long testing time and too large power consumption is avoided.

In addition, data transmission can be performed during a test process by connecting data lines, for example, transmitting test data from an external control device to a mobile phone, and transmitting data generated by the mobile phone during the test process to the control device through the data lines, and the like.

Further, as shown in fig. 4 and 5, the clamping mechanism 110 further includes a second slide rail 112, and the second slide rail 112 includes a second rail 1122 and a second slider 1121. The clamping mechanism 110 further includes a bracket 120, the second rail 1122 is fixed on the bracket 120, and the second slider 1121 is slidable along the second rail 1122. The fixing plate 11111 of the fixing plate 1111 is fixed to one end of the second rail 1122, and the moving plate 1112 is fixed to the second slider 1121.

The second slider 1121 slides on the second track 1122 to drive the movable clamp plate 1112 to move along the second direction II, so as to adjust the distance between the fixed clamp plate 1111 and the movable clamp plate 1112, so as to adapt to the sizes of digital products 400 such as mobile phones, tablet computers, display screens, digital cameras, and the like with different sizes.

Further, more than two clamping devices 100 are provided, and each clamping device 100 is matched with one tool group.

The plurality of clamping devices 100 are arranged, so that a plurality of mobile phones can be clamped, and the plurality of mobile phones can be tested at the same time, and the testing efficiency is further improved.

Further, as shown in fig. 7, the digital product testing device assembly further includes: a docking apparatus 300 disposed adjacent to the fixing splint 1111, the docking apparatus 300 including: a first docking device movement mechanism 310 and a third docking device movement mechanism 330. The first plugging device moving mechanism 310 drives the plugging device 300 to move in the first direction I, the third plugging device moving mechanism 330 is connected with the first plugging device moving mechanism 310, and the third plugging device moving mechanism 330 is slidable relative to the first plugging device moving mechanism 310 in the third direction III.

The plugging device 300 further comprises a plugging mechanism 320, the plugging mechanism 30 comprises: a fixed seat 323, a plug connector clamp 321 and a second plug device moving mechanism 322. The fixing base 323 is fixed to the third plugging device moving mechanism 321. The connector holder 322 is used to hold a connector 324. The fixing seat 323 and the plug fixture 321 are connected by the second plug equipment moving mechanism 322, and the plug fixture 321 moves along the second direction II by the second plug equipment moving mechanism 322.

The mobile phone and the external equipment are connected through the plugging equipment, for example, a USB data line is plugged in a plug port of the mobile phone to connect a power supply, so that the mobile phone is prevented from being powered off due to large power consumption in the test process, and the test is prevented from being interrupted. In addition, data transmission can be carried out between the mobile phone and the external equipment through the USB data line. For example, data or instructions are sent to the mobile phone through the external device, and the test result is sent to the test terminal through the USB data line for calculation, analysis, or storage.

The positions of the docking apparatus 300 in the first direction I and the third direction III are adjusted by the first docking apparatus moving mechanism 310 and the third docking apparatus moving mechanism 330. The second direction II is a direction of a distance between the docking apparatus 300 and the mobile phone, and may be implemented by moving the clamping apparatus 100 in the second direction II. After the position of the plugging device 300 is adjusted, the USB plug is aligned with the plug port of the mobile phone, the second plugging device moving mechanism 322 pushes the plug clamp 321 to move towards the plug port of the mobile phone, and the plug 324 is inserted into the plug port, so as to connect the USB data line with the mobile phone.

Preferably, the second plugging device moving mechanism 322 is implemented by an air cylinder mechanism, and in order to ensure that the plugging head clamp 321 does not deviate from the moving direction, two guiding mechanisms are configured, and the guiding mechanisms can be implemented by adopting sliding fit between a guiding rod and a guiding cylinder.

Further, one of the plugging devices 300 is provided for each of the gripping devices 100.

One plug-in device 300 is configured corresponding to each mobile phone on each clamping device 100, so that simultaneous testing of a plurality of mobile phones is realized, and the testing efficiency is improved.

Further, as shown in fig. 1, the digital product testing device assembly further includes: a stent 500, comprising: a base plate 510 and a column 520. The gripping apparatus 100 is secured to the base plate 510. At least three posts 520 are fixed on the bottom plate 510. The plugging device 300 is fixed to the pillar 520. The test tool apparatus 200 is secured to the top end of the column 520.

The clamping apparatus 100, the test tool apparatus 200, and the plugging apparatus 300 are fixed at appropriate positions by the brackets 500, respectively, a firm foundation is provided for testing, and the clamping apparatus 100, the test tool apparatus 200, and the plugging apparatus 300 can be installed.

Other embodiments of the utility model will be apparent to those skilled in the art from consideration of the specification and practice of the utility model disclosed herein. This application is intended to cover any variations, uses, or adaptations of the utility model following, in general, the principles of the utility model and including such departures from the present disclosure as come within known or customary practice within the art to which the utility model pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the utility model being indicated by the following claims.

It will be understood that the utility model is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the utility model is limited only by the appended claims.

Claims (10)

1. A digital product testing device assembly, comprising:

a test tool apparatus (200) comprising:

a test tool assembly (240) comprising:

a tool set comprising two or more tools (241);

an adjusting mechanism (242) connected with the tool group for adjusting the distance between two adjacent tools (241);

a first test device movement mechanism (210) coupled to the test tool assembly (240), the first test device movement mechanism (210) driving a distance between the test tool assembly (240) and the digital product (400) in a first direction (I);

a second test device moving mechanism (220) connected to the first test device moving mechanism (210), the second test device moving mechanism (220) driving the first test device moving mechanism (210) to move in a second direction (II);

a third test device moving mechanism (230) connected to the second test device moving mechanism (220), wherein the third test device moving mechanism (230) drives the second test device moving mechanism (220) to move in a third direction (III).

2. The digital product testing device assembly of claim 1,

the tool (241) comprises a test head (2411) and an air cylinder (2412), and the test head (2411) is driven to extend and retract along a first direction (I) by the air cylinder (2412).

3. The digital product testing device assembly of claim 2,

the testing tool assembly (240) comprises m tool groups which are arranged side by side, wherein m is more than or equal to 1;

each tool group is arranged in a row by 1 fixed tool and n-1 movable tools, wherein n is more than or equal to 2;

one of said adjustment mechanisms (242) is associated with each row of said moving means of m of said tool groups.

4. The digital product testing device assembly of claim 3,

the test tool assembly (240) further comprises a substrate (243);

the adjusting mechanism (242) comprises a first slide rail and a transmission component (2421), the first slide rail comprises a first track (2423) and a first slide block (2422), the first slide block (2422) is connected with the transmission component (2421), and the first track (2423) is fixed on the base plate (243);

the moving means is fixed to the first slide (2422);

and a round hole and a long hole are formed in the base plate (243), the fixing tool penetrates through the round hole, and the moving tool penetrates through the long hole.

5. The digital product testing device assembly of claim 1, further comprising:

a clamping device (100) disposed near the tool (241) in a first direction (I), comprising a clamping mechanism (110), wherein the clamping mechanism (110) comprises a clamping plate assembly (111), the clamping plate assembly (111) comprises a fixed clamping plate (1111) and a movable clamping plate (1112), and the fixed clamping plate (1111) clamps one end of the digital product (400) where the socket is disposed;

the fixing splint (1111) is U-shaped and is formed by arranging two tooth parts (11112) at two ends of a flat fixing plate (11111);

the plug-in opening is exposed through the middle of the two teeth (11112).

6. The digital product testing device assembly of claim 5, wherein,

the clamping mechanism (110) further comprises a second slide rail (112), and the second slide rail (112) comprises a second rail (1122) and a second slider (1121);

the clamping mechanism (110) further comprises a bracket (120), the second rail (1122) is fixed on the bracket (120), and the second slider (1121) is slidable along the second rail (1122);

the fixing plate (11111) of the fixing clamp plate (1111) is fixed to one end of the second rail (1122), and the moving clamp plate (1112) is fixed to the second slider (1121).

7. The digital product testing device assembly of claim 6,

the clamping equipment (100) is provided with more than two parts, and each clamping equipment (100) is matched with one tool group.

8. The digital product testing device assembly of claim 7, further comprising:

a plugging device (300) disposed proximate to the fixing splint (1111), the plugging device (300) comprising:

a first plug device moving mechanism (310) and a third plug device moving mechanism (330), wherein the first plug device moving mechanism (310) drives the plug device (300) to move in a first direction (I), the third plug device moving mechanism (330) is connected with the first plug device moving mechanism (310), and the third plug device moving mechanism (330) can slide relative to the first plug device moving mechanism (310) in a third direction (III);

the plugging device (300) further comprises a plugging mechanism (320), the plugging mechanism (320) comprising:

a fixing seat (323) fixed to the third plug-in device moving mechanism (330);

a plug clamp (321) for clamping the plug (324);

the fixing seat (323) is connected with the plug connector clamp (321) through the second plug device moving mechanism (322), and the plug connector clamp (321) moves along a second direction (II) through the second plug device moving mechanism (322).

9. The digital product testing device assembly of claim 8,

one plugging device (300) is arranged in a matched mode on each clamping device (100).

10. The digital product testing device assembly of any of claims 1-9, further comprising:

a frame (500) comprising:

a base plate (510), to which base plate (510) a gripping apparatus (100) is fixed;

at least three columns (520) fixed to the base plate (510);

the plugging equipment (300) is fixed on the upright post (520);

a test tool device (200) is secured to the top end of the upright (520).

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