CN107680196B

CN107680196B - Fingerprint module test platform

Info

Publication number: CN107680196B
Application number: CN201711054287.6A
Authority: CN
Inventors: 陈东; 王海昌; 位贤龙; 袁涛; 陈松; 姚燕杰
Original assignee: Jiangsu A Kerr Bio Identification Technology Co Ltd
Current assignee: Jiangsu A Kerr Bio Identification Technology Co Ltd
Priority date: 2017-10-31
Filing date: 2017-10-31
Publication date: 2024-05-14
Anticipated expiration: 2037-10-31
Also published as: CN107680196A

Abstract

The invention discloses a fingerprint module testing platform, which is characterized in that when a whole fingerprint module is conveyed to a positioning table in a pushing and blocking manner, the whole fingerprint module can be blocked from being conveyed forwards at the front end through a baffle plate, and the whole fingerprint module is pushed to a position corresponding to a probe bottom plate through a push plate at the side edge, so that the fingerprint module is automatically and accurately positioned; when detecting that a certain or a plurality of fingerprint modules are defective products, the motor starts, drives each cylinder to move to the upper side of the whole fingerprint module, and starts the corresponding cylinder above the defective products, drives the marking pen point to mark the marks on the corresponding fingerprint module, then drives the marking pen point to retract, and drives each cylinder to retract, so that the automatic marking of the defective fingerprint module can be realized, labor is saved, and the detection efficiency of the fingerprint module is improved.

Description

Fingerprint module test platform

Technical Field

The invention relates to the technical field of fingerprint module testing, in particular to a fingerprint module testing platform.

Background

With the development of electronic technology, more and more mobile terminals adopt fingerprint identification technology. The fingerprint identification technology mainly relies on a fingerprint module, which is a product with an IC chip and a circuit board connected, and mainly comprises a fingerprint acquisition module, a fingerprint identification module and an expansion function module (such as a lockset driving module). Compared with the traditional digital password or the Sudoku password, the fingerprint identification technology has better security, and the fingerprint identification technology has faster experience.

Therefore, this also brings opportunities and challenges to the fingerprint module packaging enterprises, how to improve product performance and production efficiency is a concern for them, and detection needs to be performed after the fingerprint module is assembled, such as sensitivity, whether to communicate with a circuit, etc. At present, when detecting the fingerprint module, the fingerprint module of the whole plate is detected at the same time, so that the fingerprint module of the whole plate needs to be positioned, and the positioning is performed manually at present, so that the positioning precision is low; in addition, when one or more fingerprint modules are detected to be defective products, the defective products are marked manually. The manual operation mode increases the labor intensity of manpower on one hand and affects the testing efficiency on the other hand.

In view of the above-mentioned drawbacks, the present designer is actively researched and innovated to create a novel structure of fingerprint module testing platform, which has more industrial utility value.

Disclosure of Invention

The invention aims to provide a fingerprint module testing platform which can automatically position a whole conveyed fingerprint module and automatically move to the upper part of the fingerprint module and automatically mark defective products when defective fingerprint modules are detected.

To achieve the purpose, the invention adopts the following technical scheme:

the fingerprint module test platform comprises a base, a translation mechanism, an ink box bracket and a positioning component are arranged on the base, a dotting component is arranged on the translation mechanism, the positioning component is positioned in front of the translation mechanism, wherein,

The translation mechanism is used for driving the dotting component to move forwards to be right above the positioning component and backwards to be right above the ink box bracket;

The dotting assembly comprises a bracket, a plurality of cylinder mounting frames, a plurality of cylinders, a plurality of clamping pieces and a plurality of marking pen points, wherein,

The bracket is arranged on the translation mechanism;

The cylinder mounting frames are arranged at the end part of the bracket side by side and are staggered front and back;

Each air cylinder is vertically arranged on each air cylinder mounting frame, and the telescopic rod of each air cylinder faces downwards;

Each clamping piece is respectively arranged on the telescopic rod of each cylinder and is respectively used for clamping each marking pen point, each clamping piece comprises a rectangular block body, a pen point jack is arranged at the end part of the rectangular block body close to the rectangular block body, an opening extending to the pen point jack is concavely arranged at the end part of the rectangular block body, and opposite bolt holes are formed in two side walls of the opening;

each marking pen point is respectively inserted into the pen point jack;

The positioning component comprises a probe baseplate frame, a pushing component and a blocking component which are arranged on the base, wherein,

The probe bottom plate frame comprises a supporting frame arranged on the base, a positioning table is arranged on the supporting frame, and a probe bottom plate is fixed on the positioning table;

The pushing assembly comprises a first support seat positioned at the side edge of the positioning table, a pushing cylinder installed on the first support seat and facing the edge of the positioning table, and a pushing plate installed on a telescopic rod of the pushing cylinder, wherein the pushing plate is parallel to the edge of the positioning table;

The material blocking assembly comprises a second support seat positioned at the other side edge of the positioning table, a multi-position air cylinder arranged on the second support seat, a sliding plate connected with a telescopic rod of the multi-position air cylinder, and a baffle plate rotationally connected with the sliding plate, wherein the telescopic rod of the multi-position air cylinder is provided with a first stay position and a second stay position, and when the telescopic rod of the multi-position air cylinder is positioned at the first stay position, the baffle plate rotates to a horizontal position relative to the sliding plate and is parallel to the positioning table; when the telescopic rod of the multi-position cylinder is at the second stay position, the baffle descends and is abutted against the positioning table, and the end part of the baffle is close to the edge of the probe bottom plate.

Further, the translation mechanism comprises a sliding rail and a sliding block which is in sliding connection with the sliding rail, and a motor which drives the sliding block to move along the sliding rail.

Further, the ink box bracket is close to the end part of the sliding rail, an open ink box is supported, the ink box is used for accommodating sponge, when the dotting assembly moves to the position right above the ink box bracket, the end part of each marking pen point can be in contact with the sponge in the ink box.

Further, a connecting block for installing the rectangular block body is connected to the end part of the telescopic rod of the air cylinder, a plurality of first adjusting holes are formed in the connecting block, and a plurality of second adjusting holes are formed in the rectangular block body.

Further, the cylinder mounting frame comprises a transverse plate and a vertical plate which are vertically connected, and a plurality of third adjusting holes are formed in the transverse plate and the vertical plate along the length direction of the transverse plate and the vertical plate.

Further, the vertical plate is provided with an air cylinder positioning groove along the length direction of the vertical plate.

Further, the support comprises two opposite side plates, a top plate connected between the tops of the two side plates and a bottom plate connected between the bottoms of the two side plates, and the two side plates are provided with handle grooves corresponding to each other in position.

Further, a limiting block is arranged on the multi-position cylinder and is in sliding connection with the sliding plate, a stop block which can be abutted to the limiting block is arranged on the sliding plate, and when the telescopic rod of the multi-position cylinder is at a first stay position, the stop block is abutted to the limiting block.

Further, a plurality of positioning columns are arranged at the end part of the sliding plate, which is connected with the baffle plate, long holes with the same number as the positioning columns are arranged on the baffle plate along the length direction of the baffle plate, and when the baffle plate rotates to a horizontal position relative to the sliding plate, the positioning columns are respectively positioned in the long holes.

Further, a soft cushion is arranged at the end part of the baffle plate, which is contacted with the positioning table.

The beneficial effects of the invention are as follows: through the way of pushing and blocking, when the whole fingerprint module is conveyed to the positioning table, the whole fingerprint module can be blocked from being continuously conveyed forwards at the front end through the baffle plate, and the whole fingerprint module is pushed to a position corresponding to the probe bottom plate through the push plate at the side edge, so that the fingerprint module is automatically and accurately positioned; when detecting that a certain or a plurality of fingerprint modules are defective products, the motor starts, drives each cylinder to move to the upper side of the whole fingerprint module, and starts the corresponding cylinder above the defective products, drives the marking pen point to mark the marks on the corresponding fingerprint module, then drives the marking pen point to retract, and drives each cylinder to retract, so that the automatic marking of the defective fingerprint module can be realized, labor is saved, and the detection efficiency of the fingerprint module is improved.

Drawings

FIG. 1 is a schematic structural diagram of a fingerprint module test platform according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a dotting component in a fingerprint module test platform according to an embodiment of the present invention;

FIG. 3 is a schematic view of the structure of the clamping member in the dotting assembly of the invention;

FIG. 4 is a schematic view of the structure of the cylinder mount in the dotting assembly of the invention;

FIG. 5 is a schematic diagram of an installation structure of a positioning component in a fingerprint module testing platform according to an embodiment of the present invention;

FIG. 6 is a schematic view of a material blocking assembly in the positioning assembly;

FIG. 7 is a schematic view of a mounting structure for a plurality of cylinders in a dam assembly.

In the figure: 10-base, 11-side plate, 12-top plate, 13-bottom plate, 14-handle groove, 15-supporting frame, 16-positioning table, 17-probe bottom plate, 20-cylinder mounting frame, 21-cross plate, 22-vertical plate, 23-third adjusting hole, 24-cylinder positioning groove, 30-cylinder, 40-clamping piece, 41-pen point jack, 42-opening, 43-bolt, 44-second adjusting hole, 50-marking pen point, 60-dotting component, 61-slide rail, 62-slide block, 63-motor, 64-ink box bracket, 65-ink box, 70-connecting block, 71-first adjusting hole, 80-first support, 81-pushing cylinder, 82-push plate, 90-blocking component, 91-second support, 92-multi-position cylinder, 93-slide plate, 94-baffle, 95-limiting plate, 96-positioning column, 97-long hole, 100-positioning component.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1, the fingerprint module test platform of the present invention includes a base 10, a translation mechanism, an ink cartridge bracket 64 and a positioning assembly 100 are provided on the base 10, a dotting assembly 60 is provided on the translation mechanism, the positioning assembly 100 is located in front of the translation mechanism, and the translation mechanism is used for driving the dotting assembly 60 to move forward to right above the positioning assembly 100 and backward to right above the ink cartridge bracket 64. The translation mechanism comprises a slide rail 61 and a slide block 62 which is in sliding connection with the slide rail 61, and a motor 63 which drives the slide block 62 to move along the slide rail 61; the ink box bracket 64 is close to the end of the sliding rail 61, and is used for supporting an open ink box 65, and the ink box 65 is used for accommodating sponge.

Specifically, as shown in FIGS. 2 to 4, the dotting assembly 60 includes a bracket, a plurality of cylinder mounts 20, a plurality of cylinders 30, a plurality of clamps 40, a plurality of marking tips 50, wherein the bracket is mounted on a slider 62; the cylinder mounting frames 20 are arranged at the end parts of the bracket side by side, and the cylinder mounting frames 20 are staggered front and back; each cylinder 30 is vertically installed on each cylinder installation frame 20, and the telescopic rod of each cylinder 30 faces downwards; the end part of the telescopic rod of each cylinder 30 is connected with a connecting block 70, each clamping piece 40 is respectively arranged on the telescopic rod of each cylinder 30, each clamping piece 40 is respectively used for clamping each marking pen point 50, each clamping piece 40 comprises a rectangular block body, the rectangular block body is close to the end part of the rectangular block body and is provided with a pen point jack 41, the end part is inwards concave with an opening 42 extending to the pen point jack 41, and two side walls of the opening 42 are provided with opposite bolt holes; the marking nibs 50 are respectively inserted into the nib socket 41. When the striking assembly 60 is moved back directly over the cartridge holder 64, the end of each marking nib 50 can come into contact with the sponge in the ink cartridge 65. When the marking nib 50 is mounted, the marking nib 50 is vertically inserted into the nib insertion hole 41, the bolts 43 are inserted into the bolt holes on the two side walls of the opening 42 and locked, so that the nib insertion hole 41 clamps the marking nib 50. When detecting that one or a plurality of fingerprint modules are defective products, the motor 63 is started to drive each cylinder 30 to move above the whole fingerprint module on the positioning assembly 100, the cylinder 30 above the corresponding defective product is started to drive the marking pen point 50 to mark the mark on the corresponding fingerprint module, then the cylinder 30 drives the marking pen point 50 to retract, and the motor 63 drives each cylinder 30 to retract, so that the defective fingerprint module can be automatically marked, labor is saved, and the detection efficiency of the fingerprint module is improved; in addition, after marking, each marking pen point 50 can be retracted above the ink box 65, and the ink overflowed on the marking pen point 50 is sucked by using the sponge, so that the device is prevented from being polluted due to ink dripping.

The invention is provided with a plurality of first adjusting holes 71 on the connecting block 70, and a plurality of second adjusting holes 44 on the rectangular block body. Because the fingerprint module is a whole plate for detection, in order to adapt to the whole plate fingerprint modules with different sizes, the invention adjusts the installation position of the clamping piece 40 by arranging the adjusting holes, and selects the proper second adjusting holes 44 to align with the first adjusting holes 71 at the required positions, so that the marking pen point 50 can be opposite to the fingerprint module, and defective products can be accurately marked.

Meanwhile, in order to increase the adjustment range of the position, the cylinder mounting frame 20 of the present invention can also adjust the mounting position, and specifically, the cylinder mounting frame 20 includes a cross plate 21 and a vertical plate 22 vertically connected, and the cross plate 21 and the vertical plate 22 are each provided with a plurality of third adjustment holes 23 along the length direction thereof. When the distance between the marking pen point 50 and the bracket is required to be adjusted, the third adjusting hole 23 required on the transverse plate 21 can be selected, and the cylinder mounting frame 20 is arranged at a proper position on the bracket through the corresponding third adjusting hole 23; when the distance between the marking pen point 50 and the fingerprint module is to be adjusted, the third adjusting holes 23 required on the vertical plate 22 can be selected, and the air cylinder 30 is installed at the proper position of the air cylinder installation frame 20 through the corresponding third adjusting holes 23.

To further facilitate the installation of the air cylinder 30, the present invention provides the riser 22 with an air cylinder positioning slot 24 along its length. When the air cylinder 30 is installed, the air cylinder 30 is caught in the air cylinder catching groove 24 and then locked to the selected third regulation hole 23.

The bracket of the present invention comprises two opposite side plates 11, a top plate 12 connected between the tops of the side plates 11, and a bottom plate 13 connected between the bottoms of the side plates 11. For convenient carrying, the invention is provided with the handle grooves 14 corresponding to the positions on the two side plates 11.

As shown in fig. 5 to 7, the positioning assembly 100 comprises a probe substrate frame, a pushing assembly and a blocking assembly 90 which are arranged on the base 10, wherein the probe substrate frame comprises a supporting frame 15 arranged on the base 10, a positioning table 16 is arranged on the supporting frame 15, and a probe substrate 17 is fixed on the positioning table 16; the pushing assembly comprises a first support 80 positioned at the side edge of the positioning table 16, a pushing cylinder 81 arranged on the first support 80 and facing the edge of the positioning table 16, and a pushing plate 82 arranged on a telescopic rod of the pushing cylinder 81, wherein the pushing plate 82 is parallel to the edge of the positioning table 16; the material blocking assembly 90 comprises a second support 91 positioned on the other side of the positioning table 16, a multi-position air cylinder 92 arranged on the second support 91, a slide plate 93 connected with a telescopic rod of the multi-position air cylinder 92, and a baffle plate 94 rotatably connected with the slide plate 93, wherein the telescopic rod of the multi-position air cylinder 92 has a first stay position and a second stay position, and when the telescopic rod of the multi-position air cylinder 92 is in the first stay position, the baffle plate 94 rotates to a horizontal position relative to the slide plate 93 and is parallel to the positioning table 16; when the telescopic rod of the multi-position cylinder 92 is in the second resting position, the stop 94 is lowered and pressed against the positioning table 16, and the end of the stop 94 is immediately adjacent the edge of the probe floor 17. Through the mode of pushing away the material and keeping off the material, when whole fingerprint module carries to the locating station 16, keep out whole fingerprint module at the front end through baffle 94 and continue the antecedent, push away whole fingerprint module to the position that corresponds with probe bottom plate 17 through the push pedal 82 of side to automatic and accurately fix a position the fingerprint module.

In order to enable the telescopic rod of the multi-position air cylinder 92 to rotate to a horizontal position relative to the sliding plate 93 when the telescopic rod of the multi-position air cylinder 92 is in a first stay position, the limiting block 95 is arranged on the multi-position air cylinder 92, the limiting block 95 is in sliding connection with the sliding plate 93, the sliding plate 93 is provided with a stop block which can be abutted against the limiting block 95, and when the telescopic rod of the multi-position air cylinder 92 is in the first stay position, the stop block is abutted against the limiting block 95. That is, when the telescopic rod of the multi-position cylinder 92 moves to the first stop position, the slide plate 93 cannot move relative to the multi-position cylinder 92 due to the abutment of the stopper 95, and thus the telescopic rod of the multi-position cylinder 92 pushes up the baffle plate 94, and the baffle plate 94 rotates 90 ° horizontally relative to the slide plate 93.

In order to accurately rotate the baffle plate 94, the invention is provided with a plurality of positioning posts 96 on the end part of the slide plate 93 connected with the baffle plate 94, and the baffle plate 94 is provided with long holes 97 with the same number as the positioning posts 96 along the length direction, when the baffle plate 94 rotates to a horizontal position relative to the slide plate 93, each positioning post 96 is respectively positioned in each long hole 97. By utilizing the matching relation between the positioning column 96 and the long hole 97, the baffle 94 cannot deflect in the rotation process, so that the positioning precision of the whole fingerprint module is improved.

In addition, the end of the baffle 94 contacted with the positioning table 16 is provided with a soft cushion, and the friction force between the baffle 94 and the positioning table 16 can be enhanced by utilizing the soft cushion, so that the positioning precision of the whole fingerprint module is ensured.

The working principle of the invention is as follows: the whole fingerprint module is conveyed to the probe bottom plate 17, the whole fingerprint module is kept against the front end by the baffle 94 and is conveyed forwards, the push plate 82 on the side pushes the whole fingerprint module to the position corresponding to the probe bottom plate 17, positioning is achieved, then the whole fingerprint module is detected on the probe bottom plate 17, when one or a plurality of fingerprint modules are detected to be defective products, the motor 63 is started, the cylinders 30 are driven to move to the positions above the whole fingerprint module on the positioning assembly 100, the cylinders 30 above the corresponding defective products are started, the marking pen heads 50 are driven to mark the corresponding fingerprint modules, then the cylinders 30 drive the marking pen heads 50 to retract, and the motor 63 drives the cylinders 30 to retract.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims

1. The fingerprint module test platform is characterized by comprising a base, wherein the base is provided with a translation mechanism, an ink box bracket and a positioning component, the translation mechanism is provided with a dotting component, the positioning component is positioned in front of the translation mechanism,

The bracket is arranged on the translation mechanism;

each marking pen point is respectively inserted into the pen point jack;

The material blocking assembly comprises a second support seat positioned at the other side edge of the positioning table, a multi-position air cylinder arranged on the second support seat, a sliding plate connected with a telescopic rod of the multi-position air cylinder, and a baffle plate rotationally connected with the sliding plate, wherein the telescopic rod of the multi-position air cylinder is provided with a first stay position and a second stay position, and when the telescopic rod of the multi-position air cylinder is positioned at the first stay position, the baffle plate rotates to a horizontal position relative to the sliding plate and is parallel to the positioning table; when the telescopic rod of the multi-position cylinder is at the second stay position, the baffle descends and is abutted against the positioning table, and the end part of the baffle is close to the edge of the probe bottom plate;

the translation mechanism comprises a sliding rail and a sliding block which is in sliding connection with the sliding rail, and a motor for driving the sliding block to move along the sliding rail;

and a soft cushion is arranged at the end part of the baffle plate, which is contacted with the positioning table.

2. The fingerprint module testing platform of claim 1, wherein the cartridge holder is adjacent to the end of the rail, and supports an open cartridge for receiving a sponge, and wherein the end of each marking nib is capable of contacting the sponge in the cartridge when the dotting assembly is moved back directly over the cartridge holder.

3. The fingerprint module test platform of claim 1, wherein a connecting block for installing the rectangular block body is connected to the end part of the telescopic rod of the air cylinder, a plurality of first adjusting holes are formed in the connecting block, and a plurality of second adjusting holes are formed in the rectangular block body.

4. The fingerprint module test platform of claim 1, wherein the cylinder mount comprises a cross plate and a riser that are vertically connected, the cross plate and the riser each having a plurality of third adjustment holes along a length thereof.

5. The fingerprint module testing platform of claim 4, wherein the riser is provided with a cylinder detent along a length thereof.

6. The fingerprint module testing platform of claim 1, wherein the bracket comprises two opposite side plates, a top plate connected between the tops of the two side plates, and a bottom plate connected between the bottoms of the two side plates, and the two side plates are provided with corresponding handle grooves.

7. The fingerprint module test platform of claim 1, wherein a limit block is arranged on the multi-position cylinder, the limit block is in sliding connection with the sliding plate, a stop block capable of abutting against the limit block is arranged on the sliding plate, and when the telescopic rod of the multi-position cylinder is at the first stay position, the stop block abuts against the limit block.

8. The fingerprint module testing platform of claim 1, wherein a plurality of positioning posts are arranged on the end part of the slide plate, which is connected with the baffle plate, and long holes with the same number as the positioning posts are arranged on the baffle plate along the length direction of the baffle plate, and when the baffle plate rotates to a horizontal position relative to the slide plate, the positioning posts are respectively positioned in the long holes.