CN211908902U - Ultrasonic testing equipment - Google Patents

Abstract

The utility model discloses an ultrasonic detection device, which comprises a frame, a main controller, a sound insulation box body, an ultrasonic detection component, a drawer, a mobile phone tool and a driving device; the sound insulation box body is fixedly arranged at the top of the frame, the front end surface of the sound insulation box body forms an opening, and a detection cavity is formed inside the sound insulation box body; the ultrasonic detection component is arranged in the detection cavity so as to perform ultrasonic detection on the fingerprint membrane group on the ultrasonic fingerprint identification mobile phone; the drawer is arranged in the detection cavity and can be drawn out from the opening, and the drawer is provided with an outer sealing plate for covering the opening; the mobile phone tool is fixed on the drawer and used for loading the ultrasonic fingerprint identification mobile phone; the driving device is arranged in the detection cavity and connected to the drawer to drive the drawer to move back and forth. The effect is as follows: the utility model discloses carry out ultrasonic detection to ultrasonic fingerprint identification cell-phone fingerprint membrane group and time measuring, it is effectual to give sound insulation, and the drawer is taken the shock resistance out and is good and the buffer is good, and the cell-phone support plate can be dismantled, carries out fingerprint membrane group ultrasonic detection to not unidimensional model cell-phone in needs and time measuring, only need change the cell-phone support plate can, make the utility model discloses use in a flexible way.

Description

Ultrasonic testing equipment

Technical Field

The utility model relates to a mobile terminal technical field, specifically say, relate to an ultrasonic testing equipment for carrying out ultrasonic testing to mobile terminal.

Background

With the popularization of the comprehensive screen concept of the mobile phone, the fingerprint unlocking of the traditional mobile phone cannot meet the requirements, the fingerprint identification under the screen gradually becomes the mainstream, the technology adopts the ultrasonic fingerprint identification means to be the best, and the fingerprint unlocking under the screen can be realized in the true sense.

However, as prior art, at the present stage, there is not a section for carrying out ultrasonic detection's the effectual ultrasonic detection equipment that gives sound insulation, antidetonation are effectual and general type to the fingerprint module of ultrasonic fingerprint identification cell-phone for use.

Therefore, the existing problems remain to be solved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the not enough of above-mentioned prior art and provide an ultrasonic testing equipment.

The utility model provides a technical scheme that prior art problem adopted is: an ultrasonic detection device comprises a frame and a main controller arranged on the frame; further comprising:

a sound insulation box body; the sound insulation box body is fixedly arranged at the top of the rack, the front end surface of the sound insulation box body is formed into an opening, and the interior of the sound insulation box body is formed into a detection cavity;

an ultrasonic detection means; the ultrasonic detection component is arranged in the detection cavity, is connected with the main controller and is used for carrying out ultrasonic detection on the fingerprint membrane group on the ultrasonic fingerprint identification mobile phone;

a drawer; the drawer is arranged in the detection cavity and can be drawn out from the opening, and the drawer is provided with an outer sealing plate for covering the opening;

a mobile phone tool; the mobile phone tool is fixed on the drawer and used for loading an ultrasonic fingerprint identification mobile phone;

a drive device; the driving device is arranged in the detection cavity, is connected to the drawer and is connected with the main controller to drive the drawer to move back and forth so as to bring the drawer into the detection cavity through the opening or move the drawer out of the opening from the detection cavity.

The above technical solution is further described as follows:

preferably, sound insulation and absorption materials are filled in the sound insulation box body and the outer sealing plate.

Preferably, the ultrasonic detection component comprises a reflection baffle for reflecting an ultrasonic signal emitted by the fingerprint membrane group of the ultrasonic fingerprint identification mobile phone back to the fingerprint module group of the ultrasonic fingerprint identification mobile phone and a lifting device connected with the main control unit for controlling the reflection baffle to automatically lift so as to adjust the distance between the reflection baffle and the fingerprint membrane group of the ultrasonic fingerprint identification mobile phone;

a vertical plate is arranged on the left side or the inner right side in the detection cavity along the front-back direction, and the lifting device is fixedly arranged on the inner end face of the vertical plate; the reflection baffle is horizontally arranged on the lifting device and is opposite to the middle part of the bottom of the detection cavity;

when the drawer is brought into the detection cavity by the driving device, the position of the reflection baffle is opposite to the position of a fingerprint film group of the ultrasonic fingerprint identification mobile phone loaded on the mobile phone in the drawer.

Preferably, the lifting device is a rodless cylinder module.

Preferably, the mobile phone further comprises a code scanning component used for scanning the two-dimensional code stored with the factory information of the ultrasonic fingerprint identification mobile phone;

the code scanning component comprises a code scanner connected with the main controller and a connecting rod used for fixing the code scanner; the connecting rod is arranged along the left-right direction, one end of the connecting rod is connected to the vertical plate, and the other end of the connecting rod is positioned in the front, middle and upper part of the detection cavity; the code scanner is fixedly arranged at the other end of the connecting rod and faces the middle of the bottom of the detection cavity;

when the drawer is brought into the detection cavity by the driving device, the code scanning direction of the code scanner is over against a screen of the ultrasonic fingerprint identification mobile phone loaded on the mobile phone in the drawer.

Preferably, the drawer comprises two side drawing plates, a guide component, a buffer component and the outer sealing plate;

the two side pulling plates are arranged along the front-back direction, the front ends of the two side pulling plates are correspondingly fixed on two sides of the inner end surface of the outer sealing plate, and a supporting plate is horizontally and fixedly arranged between the middle parts of the inner end surfaces of the two side pulling plates; the driving device is connected with the bottom of the supporting plate;

the guide assembly comprises two guide seats and two slide rails; the two guide seats are symmetrically arranged on two sides of the front end of the bottom of the detection cavity; the two slide rails are correspondingly and slidably arranged on the inner sides of the two guide seats along the front-back direction, and the two slide rails are correspondingly fixed on the outer end surfaces of the two side drawing plates;

the buffer assembly comprises two anti-collision buffer cushions and two pressure reducing blocks; the two anti-collision buffer cushions are correspondingly and fixedly arranged on the rear end surfaces of the two guide seats; the two pressure reducing blocks are correspondingly and fixedly arranged at the rear ends of the outer end surfaces of the two side drawing plates and are correspondingly opposite to the two crash cushions;

when the driving device drives the drawer to move forwards to push the drawer out of the opening, the two pressure reducing blocks correspondingly abut against the two crash cushions.

Preferably, the mobile phone tooling comprises a tooling bottom plate, a tooling top plate and a mobile phone support plate;

the tool bottom plate is horizontally and fixedly arranged on the supporting plate; the tool top plate is erected on the tool bottom plate through a support frame; the mobile phone support plate can be detached and fixedly arranged on the upper end face of the tool top plate, and the upper end face of the mobile phone support plate is downwards provided with a containing cavity suitable for containing the ultrasonic fingerprint identification mobile phone.

Preferably, the mobile phone tool further comprises an in-place induction detection component for in-place induction of the ultrasonic fingerprint identification mobile phone;

the in-situ sensing detection component is a microswitch connected with the main controller; the microswitch is arranged on the lower bottom surface of the tool top plate; the middle part of the bottom of the mobile phone support plate accommodating cavity is provided with a through hole penetrating to the lower bottom surface of the tooling top plate; the microswitch is provided with an elastic contact piece which is arranged upwards, and the top of the elastic contact piece penetrates through the via hole from bottom to top and extends into the accommodating cavity.

Preferably, the mobile phone tool further comprises a pressing component used for pressing the ultrasonic fingerprint identification mobile phone in the accommodating cavity;

the pressing component comprises a pressing claw cylinder and an air charging module which is connected with the pressing claw cylinder and used for charging air to the pressing claw cylinder; the pressing claw cylinder is fixedly arranged on the tool top plate and located beside the mobile phone support plate, and the pressing claw cylinder is provided with a pressing claw which is arranged close to the containing cavity and used for pressing the ultrasonic fingerprint identification mobile phone in the containing cavity.

Preferably, the mobile phone further comprises a plug-in component for plugging in the data interface of the ultrasonic fingerprint identification mobile phone so as to be controlled by external equipment;

the plug-in component comprises a plug-in connector which is used for transmitting data information and control instructions and is suitable for being plugged in a data interface of the ultrasonic fingerprint identification mobile phone, a heightening plate used for fixing the plug-in connector, a connecting plate used for fixing the heightening plate and a front and back pushing cylinder which is used for controlling the plug-in connector to move back and forth and is connected with the main controller;

the front and rear pushing cylinders are fixedly arranged in the front middle part of the lower bottom surface of the tool top plate along the front and rear directions; the connecting plate is fixedly arranged on a cylinder rod at the front end of the front and rear pushing cylinders, and a screw hole is formed in the front of the rear end surface of the connecting plate; the rear end surface of the height-adjusting plate is provided with a height-adjusting fixing groove which penetrates through the front end surface of the height-adjusting plate along the vertical direction and is opposite to the screw hole, and the height-adjusting plate is connected with the connecting plate through a height-adjusting bolt which penetrates through the height-adjusting fixing groove and the screw hole; the plug-in connector is fixedly arranged on the heightening plate and is opposite to the ultrasonic fingerprint identification mobile phone data interface arranged on the mobile phone carrier plate in the front-back direction.

The utility model has the advantages that:

one of them, the utility model provides an ultrasonic detection device, when the concrete implementation, on one hand, locate the ultrasonic detection component in the sound insulation box body, make when using the utility model to carry out ultrasonic detection to the fingerprint membrane group of the ultrasonic fingerprint identification mobile phone, the sound insulation effect is good, make the interference of external noise effectively reduced, make the fingerprint membrane group of the ultrasonic fingerprint identification mobile phone have good ultrasonic detection effect and good detection reliability, on the other hand, the utility model also comprises a code scanning component for scanning the two-dimensional code stored with the delivery information of the ultrasonic fingerprint identification mobile phone, thus, before using the utility model to carry out ultrasonic detection to the fingerprint membrane group of the ultrasonic fingerprint identification mobile phone, the two-dimensional code stored with the information of the ultrasonic fingerprint identification mobile phone is scanned by the code scanning component, so as to make each detection to associate the relevant information of the ultrasonic fingerprint identification mobile phone required to be detected, the utility model can realize one-to-one detection and tracking in each detection, so as to facilitate the system statistics and recording, effectively track the unqualified ultrasonic fingerprint identification mobile phone in the fingerprint module detection and facilitate the calibration and verification of the ultrasonic emission frequency of the fingerprint module, and the like, thereby the utility model is more reliable in use, simultaneously, when the driving device drives the drawer to move forward to push out the opening, two pressure reducing blocks correspondingly abut against two anti-collision buffer pads, so that the drawer is drawn out with good anti-shock performance and good buffer performance and is not easy to generate larger impact, thereby the service life is long, in addition, the mobile phone support plate is detachably arranged on the tool top plate, so that when the ultrasonic detection of the fingerprint film group is required to be carried out on the mobile phones with different sizes and models, only the corresponding mobile phone support plate needs to be replaced, thereby the utility model has good flexibility in use and strong adaptability, furthermore, the utility model discloses the practicality is strong, excellent in use effect.

Drawings

Fig. 1 is a schematic view of the overall structure of the ultrasonic testing apparatus of the present invention;

fig. 2 is a schematic view of the whole structure of the ultrasonic testing apparatus of the present invention when the right panel is removed;

fig. 3 is a schematic view of the overall structure of the ultrasonic testing apparatus of the present invention with the case and the ultrasonic testing member removed;

fig. 4 is a schematic view of the whole structure of the ultrasonic testing apparatus of the present invention with the case and the ultrasonic testing member removed;

fig. 5 is a schematic view of the overall structure of the mobile phone tooling in the embodiment;

fig. 6 is a schematic view of the overall structure of the mobile phone fixture in the embodiment;

fig. 7 is a schematic view of the overall structure of the plug member in the present embodiment;

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Reference numerals:

an ultrasonic detection device 1000;

a frame 10;

a sound-insulating case 20;

an opening 201; a detection chamber 202; a vertical plate 203;

an ultrasonic detection member 30;

a reflective baffle 301; a lifting device 302;

a drawer 40;

an outer seal plate 401; a side draw plate 402; a guide member 403; a guide 4031; a slide rail 4032; a buffer component 404; crash cushion 4041; pressure reduction block 4042; a support plate 405;

a mobile phone tool 50;

a tooling bottom plate 501; a tooling top plate 502; a mobile phone carrier 503; an accommodation cavity 5031; a via 5032; a threaded bore B5033; a support frame 504; an in-situ sensing detection means 505; elastic contact pieces 5051; a fixing plate 5052; a pressing member 506; a dog cylinder 5061; pressing the claws 50611; a gas module 5062;

a drive device 60;

a code scanning member 70;

a code scanner 701; a connecting rod 702;

an insertion member 80;

a plug-in connector 801; an elevation plate 802; height-adjustable fixing grooves 8021; a connecting plate 803; a screw hole 8031; a forward and backward push cylinder 804;

Detailed Description

The technical solutions of the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments, so as to clearly and intuitively understand the inventive substance of the present invention.

As shown in connection with fig. 1-7;

the utility model provides an ultrasonic detection device 1000, which comprises a frame 10 and a main controller arranged on the frame 10; further comprising:

a sound-insulating case 20; the sound insulation box body 20 is fixed on the top of the frame 10, the front end surface of the sound insulation box body is formed into an opening 201, and the interior of the sound insulation box body is formed into a detection cavity 202;

an ultrasonic detection member 30; the ultrasonic detection component 30 is arranged in the detection cavity 202, is connected with the main controller and is used for performing ultrasonic detection on the fingerprint film group of the ultrasonic fingerprint identification mobile phone;

a drawer 40; the drawer 40 is disposed in the detection chamber 202 and can be drawn out from the opening 201, and the drawer 40 has an outer sealing plate 401 for covering the opening 201;

a mobile phone tool 50; the mobile phone tool 50 is fixed on the drawer 40 and used for loading an ultrasonic fingerprint identification mobile phone;

a drive device 60; the driving device 60 is disposed in the detection chamber 202, connected to the drawer 40, and connected to the main controller for driving the drawer 40 to move back and forth so as to bring it into the detection chamber 202 through the opening 201 or move it out of the detection chamber 202 through the opening 201.

Based on the above, it is clear that:

on one hand, the ultrasonic detection component 30 is arranged in the sound insulation box body 20, so that when the ultrasonic fingerprint identification mobile phone fingerprint film group is subjected to ultrasonic detection by using the utility model, the sound insulation effect is good, the interference of external noise can be effectively reduced, and the ultrasonic detection effect and the detection reliability of the fingerprint film group of the ultrasonic fingerprint identification mobile phone are good;

on the other hand, the driving device 60 drives the drawer 40 to move forward to move it out of the detection cavity 202, even if it is convenient for a manual or a mechanical hand to load the ultrasonic fingerprint identification mobile phone on the mobile phone tool 50 for performing ultrasonic detection on the fingerprint film group, the driving device 60 drives the drawer 40 to move backward to bring it into the detection cavity 202 through the opening 201, even if it is convenient for the ultrasonic detection component 30 to perform ultrasonic detection on the fingerprint film group of the ultrasonic fingerprint identification mobile phone, so that the utility model discloses it is easy and simple to operate.

In practical implementation, the sound insulation and absorption material, such as sound absorption cotton, is filled in both the sound insulation box body 20 and the outer sealing plate 401.

In addition, in this embodiment, the ultrasonic detection component 30 includes a reflection baffle 301 for reflecting the ultrasonic signal emitted by the fingerprint film group of the ultrasonic fingerprint identification mobile phone back to the fingerprint module of the ultrasonic fingerprint identification mobile phone, and a lifting device 302 connected with the main control unit for controlling the reflection baffle 301 to automatically lift to adjust the distance between the reflection baffle 301 and the fingerprint film group of the ultrasonic fingerprint identification mobile phone;

a vertical plate 203 is arranged on the left side or the right side in the detection cavity 202 along the front-back direction, and the lifting device 302 is fixed on the inner end surface of the vertical plate 203; the reflecting baffle 301 is horizontally arranged on the lifting device 302 and is opposite to the middle part of the bottom of the detection cavity 202;

when the drawer 40 is brought into the detection cavity 202 by the driving device 60, the position of the reflection baffle 301 is opposite to the position of the fingerprint film group of the ultrasonic fingerprint identification mobile phone loaded on the mobile phone tool 50 in the drawer 40.

Therefore, after the ultrasonic fingerprint identification mobile phone of the fingerprint film group to be detected is loaded on the mobile phone tool 50 and is moved backwards to the sound insulation box body 20, the driving device 60 controls the position of the reflection baffle 301 to descend to a proper position and to be vertically opposite to the position of the fingerprint film group of the ultrasonic fingerprint identification mobile phone, and the corresponding ultrasonic signal can be reflected back when the fingerprint film group of the ultrasonic fingerprint identification mobile phone sends an ultrasonic signal.

Preferably, in implementation, when the height difference between the lower bottom surface of the reflective baffle 301 and the fingerprint film set of the ultrasonic fingerprint identification mobile phone is 2.0mm, the height difference is a suitable position to which the driving device 60 controls the reflective baffle 301 to descend.

In addition, in the present technical solution, the lifting device 302 is a rodless cylinder module, so that when the lifting device is installed in the sound-proof box 20, the occupied space is small, and the installation space is saved for the sound-proof box 20, and when the lifting device 302 is a rodless cylinder module, the lifting device belongs to the prior art, and is a mature product, and details thereof and the like are not described in detail herein.

Further, when the mobile phone is implemented, the utility model also comprises a code scanning component 70 for scanning the two-dimensional code stored with the factory information of the ultrasonic fingerprint identification mobile phone;

wherein, the code scanning component 70 comprises a code scanner 701 connected with the main controller and a connecting rod 702 for fixing the code scanner 701; the connecting rod 702 is arranged along the left-right direction, one end of the connecting rod is connected to the vertical plate 203, and the other end of the connecting rod is positioned in the front, middle and upper part of the detection cavity 202; the code scanner 701 is fixedly arranged at the other end of the connecting rod 702 and faces to the middle of the bottom of the detection cavity 202;

when the drawer 40 is brought into the detection cavity 202 by the driving device 60, the code scanning direction of the code scanner 701 is over against the screen of the ultrasonic fingerprint identification mobile phone loaded on the mobile phone tool 50 in the drawer 40.

So, use the utility model discloses before carrying out ultrasonic detection to ultrasonic fingerprint identification cell-phone fingerprint membrane group, pass through earlier sweep a yard component 70 scan storage and have the two-dimensional code of ultrasonic fingerprint identification cell-phone outgoing information to make detect the relevant information of the ultrasonic fingerprint identification cell-phone that comes the relevant required detection of relevance at every turn, can realize examining time measuring at every turn and can effectively accomplish one to one detection tracking, so that the system statistics record makes follow-up can effectively track the fingerprint module and detect unqualified ultrasonic fingerprint identification cell-phone and be convenient for calibrate the check-up to the ultrasonic wave frequency of sending etc. of its fingerprint module, make the utility model discloses it is more reliable to use.

Further, in an embodiment, the drawer 40 includes two side pulling plates 402, a guiding assembly 403, a buffering assembly 404, and the outer sealing plate 401;

the two side pulling plates 402 are arranged along the front-back direction, the front ends of the two side pulling plates are correspondingly fixed on the two sides of the inner end surface of the outer sealing plate 401, and a supporting plate 405 is horizontally and fixedly arranged between the middle parts of the inner end surfaces of the two side pulling plates; the driving device 60 is connected with the bottom of the supporting plate 405;

the guide assembly 403 includes two guide seats 4031 and two slide rails 4032; the two guide seats 4031 are symmetrically arranged on two sides of the front end of the bottom of the detection cavity 202; the two slide rails 4032 are correspondingly slidably arranged on the inner sides of the two guide seats 4031 along the front-back direction, and the two slide rails 4032 are correspondingly fixed on the outer end surfaces of the two side drawing plates 402;

the bumper assembly 404 includes two crash cushions 4041 and two pressure relief blocks 4042; the two crash cushions 4041 are correspondingly and fixedly arranged on the rear end surfaces of the two guide seats 4031; the two pressure reducing blocks 4042 are correspondingly and fixedly arranged at the rear ends of the outer end faces of the two side pulling plates 402 and are correspondingly opposite to the two crash cushions 4041;

when the driving device 60 drives the drawer 40 to move forward to push it out of the opening 201, the two pressure reducing blocks 4042 abut against the two crash cushions 4041.

Thus, the buffer assembly 404 is provided, so that the drawer 40 has good shock resistance and good buffer performance when being drawn out, and is not easy to generate large impact, and the service life is long.

In addition, in the present technical solution, the mobile phone fixture 50 includes a fixture bottom plate 501, a fixture top plate 502, and a mobile phone carrier plate 503;

the tool bottom plate 501 is horizontally and fixedly arranged on the supporting plate 405; the tool top plate 502 is erected on the tool bottom plate 501 through a support frame 504; the mobile phone carrier plate 503 is detachably and fixedly arranged on the upper end surface of the tooling top plate 502, and the upper end surface of the mobile phone carrier plate 503 is downwardly provided with a containing cavity 5031 suitable for containing the ultrasonic fingerprint identification mobile phone.

Preferably, the upper end surface of the tool top plate 502 is provided with a screw hole a penetrating through the lower ground surface thereof, the upper end surface of the mobile phone support plate 503 is provided with a screw hole B5033 penetrating through the lower bottom surface thereof, and the screw hole B5033 is opposite to the screw hole a, so that the mobile phone support plate 503 can be detachably connected with the tool top plate 502 by a fastening bolt penetrating through the screw hole B5033 and the screw hole a from top to bottom.

Thus, it is possible to summarize: cell-phone support plate 503 be detachable install in on the frock roof 502 for when the ultrasonic testing that needs carry out the fingerprint membrane group to the cell-phone of unidimensional model, only need change corresponding cell-phone support plate 503 can, make the utility model discloses use the flexibility good and use strong adaptability.

Furthermore, the utility model discloses the practicality is strong, excellent in use effect.

It should be added that, in the specific implementation, the mobile phone tool 50 of the present invention further includes an in-place sensing detection component 505 for in-place sensing the ultrasonic fingerprint identification mobile phone;

wherein, the in-situ sensing detection component 505 is a micro switch connected with the main controller; the microswitch is arranged on the lower bottom surface of the tool top plate 502; a through hole 5032 penetrating to the lower bottom surface of the tooling top plate 502 is formed in the middle of the bottom of the accommodating cavity 5031 of the mobile phone carrier plate 503; the microswitch has an upward elastic contact 5051, and the top of the elastic contact 5051 passes through the through hole 5032 from bottom to top and extends into the accommodating cavity 5031.

Thus, when no mobile phone is placed on the mobile phone carrier 503, the elastic contact 5051 cannot sense the signal, and no sensing signal is given to the microswitch, when a mobile phone is placed on the mobile phone carrier 503 and presses the elastic contact 5051 downwards, the elastic contact 5051 can sense the signal, and give a sensing signal to the microswitch in real time, and transmit the sensing signal to the main controller, so that the main controller is ready to control the ultrasonic detection component 30 to work.

It is further added that, in specific implementation, the mobile phone fixture 50 further includes a pressing member 506 for pressing the ultrasonic fingerprint identification mobile phone into the accommodating cavity 5031;

the pressing member 506 includes a clamping cylinder 5061 and an air charging module 5062 connected to the clamping cylinder 5061 for charging air to the clamping cylinder 5061; the claw pressing cylinder 5061 is fixed to the tool top plate 502 and located beside the mobile phone carrier 503, and the claw pressing cylinder 5061 has a claw pressing 50611 which is arranged adjacent to the accommodating cavity 5031 and used for pressing the ultrasonic fingerprint identification mobile phone into the accommodating cavity 5031.

So, load in ultrasonic fingerprint identification cell-phone in holding chamber 5031 to by press claw 50611 to press the back well, make ultrasonic fingerprint identification cell-phone fixity good and can not take off and drop, make the utility model discloses use the security good.

Preferably, at least one pair of the pressing members 506 is symmetrically disposed on both sides of the mobile phone carrier 503.

It is further necessary to supplement, when in specific implementation, the utility model also comprises a plug-in component 80 for plugging in the data interface of the ultrasonic fingerprint identification mobile phone so as to control the mobile phone through the external device;

the plug-in component 80 comprises a plug-in connector 801 suitable for plugging in a data interface of an ultrasonic fingerprint identification mobile phone for transmitting data information and control instructions, an heightening plate 802 for fixing the plug-in connector 801, a connecting plate 803 for fixing the heightening plate 802, and a front and rear pushing cylinder 804 connected with the main controller for controlling the plug-in connector 801 to move back and forth;

the front and rear pushing cylinders 804 are fixedly arranged in the front middle of the lower bottom surface of the tool top plate 502 along the front and rear directions; the connecting plate 803 is fixed on the cylinder rod at the front end of the front and rear pushing cylinders 804, and the rear end surface of the connecting plate 803 is provided with a screw hole 8031 in the front; the rear end face of the height-adjusting plate 802 is provided with a height-adjusting fixing groove 8021 which penetrates through the front end face of the height-adjusting plate 802 in the up-down direction and is opposite to the screw hole 8031, and the height-adjusting plate 802 is connected with the connecting plate 803 through height-adjusting bolts which penetrate through the height-adjusting fixing groove 8021 and the screw hole 8031; the plug 801 is fixed on the height-adjusting board 802 and is opposite to the ultrasonic fingerprint identification mobile phone data interface mounted on the mobile phone carrier 503.

So, through the promotion of front and back push cylinder 804, so that bayonet joint 801 inserts to ultrasonic fingerprint identification cell-phone data interface who loads on the cell-phone support plate 503 to make the external industry control of its other end, can control corresponding ultrasonic fingerprint identification cell-phone through external industry control and open its fingerprint membrane group correlation procedure and come to pass through in order to prepare for it carries out ultrasonic detection, makes to it the utility model discloses control in a flexible way.

Furthermore, when concrete implementation, the utility model discloses the ultrasonic detection of fingerprint module is carried out to the ultrasonic fingerprint identification cell-phone at data interface position in end middle part to preferred, so, even get the utility model discloses plug component 80 only needs to set up heightening board 802 adjusts the high position of bayonet joint 801 with the adaptation with ultrasonic fingerprint identification cell-phone data interface that loads on cell-phone support plate 503 can around relatively for need not to adjust its left and right sides position.

Other embodiments, etc., will not be described herein.

To sum up, the utility model has the advantages that the whole structure is simple, easy to implement, easy to operate, the practicality is strong, and the specificity is strong, and low in manufacturing cost all need not increase too many cost in the improvement of structure and technique, makes the utility model discloses must have fine market spreading value, the utility model discloses can very welcome, can effectively popularize.

The above only is the preferred embodiment of the present invention, not limiting the patent protection scope of the present invention, all the changes of the equivalent structure or equivalent flow path made by the contents of the specification and the drawings, or the direct or indirect application in other related technical fields, are included in the patent protection scope of the present invention.

Claims (10)

1. An ultrasonic detection device comprises a frame and a main controller arranged on the frame; it is characterized by also comprising:

a sound insulation box body; the sound insulation box body is fixedly arranged at the top of the rack, the front end surface of the sound insulation box body is formed into an opening, and the interior of the sound insulation box body is formed into a detection cavity;

an ultrasonic detection means; the ultrasonic detection component is arranged in the detection cavity, is connected with the main controller and is used for carrying out ultrasonic detection on the fingerprint membrane group on the ultrasonic fingerprint identification mobile phone;

a drawer; the drawer is arranged in the detection cavity and can be drawn out from the opening, and the drawer is provided with an outer sealing plate for covering the opening;

a mobile phone tool; the mobile phone tool is fixed on the drawer and used for loading an ultrasonic fingerprint identification mobile phone;

a drive device; the driving device is arranged in the detection cavity, is connected to the drawer and is connected with the main controller to drive the drawer to move back and forth so as to bring the drawer into the detection cavity through the opening or move the drawer out of the opening from the detection cavity.

2. The ultrasonic testing apparatus according to claim 1, wherein sound-insulating and sound-absorbing materials are filled in the sound-insulating box body and the outer sealing plate.

3. The ultrasonic testing device of claim 1, wherein the ultrasonic testing component comprises a reflection baffle for reflecting the ultrasonic signal emitted by the fingerprint film group of the ultrasonic fingerprint identification mobile phone back to the fingerprint module group of the ultrasonic fingerprint identification mobile phone, and a lifting device connected with the main control unit for controlling the reflection baffle to automatically lift to adjust the distance between the reflection baffle and the fingerprint film group of the ultrasonic fingerprint identification mobile phone;

a vertical plate is arranged on the left side or the inner right side in the detection cavity along the front-back direction, and the lifting device is fixedly arranged on the inner end face of the vertical plate; the reflection baffle is horizontally arranged on the lifting device and is opposite to the middle part of the bottom of the detection cavity;

when the drawer is brought into the detection cavity by the driving device, the position of the reflection baffle is opposite to the position of a fingerprint film group of the ultrasonic fingerprint identification mobile phone loaded on the mobile phone in the drawer.

4. The ultrasonic testing apparatus of claim 3, wherein the lifting device is a rodless cylinder module.

5. The ultrasonic detection device according to claim 3, further comprising a code scanning component for scanning a two-dimensional code storing factory information of the ultrasonic fingerprint identification mobile phone;

the code scanning component comprises a code scanner connected with the main controller and a connecting rod used for fixing the code scanner; the connecting rod is arranged along the left-right direction, one end of the connecting rod is connected to the vertical plate, and the other end of the connecting rod is positioned in the front, middle and upper part of the detection cavity; the code scanner is fixedly arranged at the other end of the connecting rod and faces the middle of the bottom of the detection cavity;

when the drawer is brought into the detection cavity by the driving device, the code scanning direction of the code scanner is over against a screen of the ultrasonic fingerprint identification mobile phone loaded on the mobile phone in the drawer.

6. The ultrasonic testing apparatus of claim 1, wherein said drawer comprises two side pull plates, a guide assembly, a buffer assembly and said outer sealing plate;

the two side pulling plates are arranged along the front-back direction, the front ends of the two side pulling plates are correspondingly fixed on two sides of the inner end surface of the outer sealing plate, and a supporting plate is horizontally and fixedly arranged between the middle parts of the inner end surfaces of the two side pulling plates; the driving device is connected with the bottom of the supporting plate;

the guide assembly comprises two guide seats and two slide rails; the two guide seats are symmetrically arranged on two sides of the front end of the bottom of the detection cavity; the two slide rails are correspondingly and slidably arranged on the inner sides of the two guide seats along the front-back direction, and the two slide rails are correspondingly fixed on the outer end surfaces of the two side drawing plates;

the buffer assembly comprises two anti-collision buffer cushions and two pressure reducing blocks; the two anti-collision buffer cushions are correspondingly and fixedly arranged on the rear end surfaces of the two guide seats; the two pressure reducing blocks are correspondingly and fixedly arranged at the rear ends of the outer end surfaces of the two side drawing plates and are correspondingly opposite to the two crash cushions;

when the driving device drives the drawer to move forwards to push the drawer out of the opening, the two pressure reducing blocks correspondingly abut against the two crash cushions.

7. The ultrasonic testing device of claim 6, wherein the mobile phone tooling comprises a tooling bottom plate, a tooling top plate and a mobile phone carrier plate;

the tool bottom plate is horizontally and fixedly arranged on the supporting plate; the tool top plate is erected on the tool bottom plate through a support frame; the mobile phone support plate can be detached and fixedly arranged on the upper end face of the tool top plate, and the upper end face of the mobile phone support plate is downwards provided with a containing cavity suitable for containing the ultrasonic fingerprint identification mobile phone.

8. The ultrasonic detection device of claim 7, wherein the mobile phone tool further comprises an in-place induction detection component for in-place induction of the ultrasonic fingerprint identification mobile phone;

the in-situ sensing detection component is a microswitch connected with the main controller; the microswitch is arranged on the lower bottom surface of the tool top plate; the middle part of the bottom of the mobile phone support plate accommodating cavity is provided with a through hole penetrating to the lower bottom surface of the tooling top plate; the microswitch is provided with an elastic contact piece which is arranged upwards, and the top of the elastic contact piece penetrates through the via hole from bottom to top and extends into the accommodating cavity.

9. The ultrasonic testing device of claim 7, wherein the cell phone tooling further comprises a pressing member for pressing the ultrasonic fingerprint identification cell phone into the accommodating cavity;

the pressing component comprises a pressing claw cylinder and an air charging module which is connected with the pressing claw cylinder and used for charging air to the pressing claw cylinder; the pressing claw cylinder is fixedly arranged on the tool top plate and located beside the mobile phone support plate, and the pressing claw cylinder is provided with a pressing claw which is arranged close to the containing cavity and used for pressing the ultrasonic fingerprint identification mobile phone in the containing cavity.

10. The ultrasonic testing device of claim 7, further comprising a plug member for plugging the data interface of the ultrasonic fingerprint recognition mobile phone so as to be operated by an external device;

the plug-in component comprises a plug-in connector which is used for transmitting data information and control instructions and is suitable for being plugged in a data interface of the ultrasonic fingerprint identification mobile phone, a heightening plate used for fixing the plug-in connector, a connecting plate used for fixing the heightening plate and a front and back pushing cylinder which is used for controlling the plug-in connector to move back and forth and is connected with the main controller;

the front and rear pushing cylinders are fixedly arranged in the front middle part of the lower bottom surface of the tool top plate along the front and rear directions; the connecting plate is fixedly arranged on a cylinder rod at the front end of the front and rear pushing cylinders, and a screw hole is formed in the front of the rear end surface of the connecting plate; the rear end surface of the height-adjusting plate is provided with a height-adjusting fixing groove which penetrates through the front end surface of the height-adjusting plate along the vertical direction and is opposite to the screw hole, and the height-adjusting plate is connected with the connecting plate through a height-adjusting bolt which penetrates through the height-adjusting fixing groove and the screw hole; the plug-in connector is fixedly arranged on the heightening plate and is opposite to the ultrasonic fingerprint identification mobile phone data interface arranged on the mobile phone carrier plate in the front-back direction.

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