CN203643181U - Automatic test device - Google Patents

Abstract

The utility model provides an automatic test device. The automatic test device comprises a conveying device comprising a transmission belt used for bearing and conveying a to-be-tested finished product and a power controller for driving the transmission belt to operate and controlling the belt to operate according to a preset mobile distance and a stay time; a positioning jig used for positioning the to-be-tested finished product on the transmission belt to locate at a preset position of the transmission belt; a test device for testing the to-be-tested finished product staying on the transmission belt below the test device; a sensor for transmitting a detection signal to the test device to make the test device detect the to-be-tested finished product when the test device receives the detection signal, when the sensor detects that the to-be-tested finished product stays below the test device; a communication control device connected with the test device and the to-be-tested finished product separately, used for controlling the communication between the test device and the to-be-tested finished product, and concretely comprising a sound control module, a light-controlled module, a magnetic control module and a graphic control module. The automatic test device of the utility model enables the automation degree of a test to be improved, and the test time to be saved.

Description

A kind of ATE (automatic test equipment)

Technical field

The utility model relates to industrial control technology field, particularly relates to the control technology field of test product performance, is specially a kind of ATE (automatic test equipment).

Background technology

The in the situation that ATE (automatic test equipment) (ATE, Automatic Testing Systems) referring in the few participation of people or do not participate in, automatically measure deal with data, and the system that shows in a suitable manner or output test result.Compared with manual testing, automatically test save time, laborsaving, can raise labour productivity and product quality, it all plays an important role to production, scientific research and national defence.

The development work of ATE (automatic test equipment) (ATS) starts from the 1950's.Modern content measurement is day by day complicated, and test job amount is increased sharply, and has required the time of test shorter and shorter, and manual testing is difficult to meet these requirements, automatic test technology thereby developed rapidly.More perfect ATE (automatic test equipment) is to adopt the sixties robot calculator just to come out later.

The development experience of ATE (automatic test equipment) three phases.1, adopt special test equipment: this systematic comparison complexity, development work amount is large, and cost is high, and bad adaptability will redesign interface (comprising the interface between interface and instrument and the computing machine between instrument and instrument) in the time changing content measurement; Special test equipment is only used for carrying out a large amount of replica tests, fast test or complicated test, or high for testing reliability is required, hinder tester's health and the inaccessible test site of tester.2, adopt standardised generic interface bus (GPIB) to connect relevant devices, in system, each ingredient is all joined standard interface function, couples together with the passive bus cable of unifying, and does not need designed, designed interface, can change neatly, additions and deletions content measurement.In these two stages, computing machine is mainly born control, calculating and the data processing task of system, is simulation manual testing's process substantially, still can not give full play to the function of computing machine.3, computing machine and testing apparatus are combined together, replace the function of some hardware in legacy equipment with computer software, general-purpose computers produce excitation, complete test function, generate test procedure.

At present, it is too much that the ATE (automatic test equipment) adopting in the time of the finished product test for electronic product also exists artificial judgement project, test products need to move between different testing stations, still adopts the data lines such as USB to connect the problems such as the plug causing is frequent in testing station.

Utility model content

The shortcoming of prior art in view of the above, the purpose of this utility model is to provide a kind of ATE (automatic test equipment), loaded down with trivial details for solving test system and test of the prior art, the problem that the test duration is long.

For achieving the above object and other relevant objects, the utility model provides a kind of ATE (automatic test equipment), be applied in the finished product test of electronic product, described ATE (automatic test equipment) comprises: conveyer, comprises for carrying finished product to be measured and transporting the transmission belt of finished product to be measured and drive transmission belt to move and control belt by the power controller of default displacement and residence time operation; Localization tool, is arranged on the initial end that conveyer transports, and is located at the predeterminated position of transmission belt for locating finished product to be measured on transmission belt; Proving installation, is arranged on transmission belt top, and the finished product to be measured stopping on transmission belt is thereunder tested; Sensor, be arranged on by described proving installation, for detection of described finished product to be measured whether rest on the below of described proving installation and detect described finished product to be measured rest on described proving installation below time to described proving installation transmission detection signal, so that described proving installation is carried out the test to finished product to be measured in the time receiving detection signal; Communication control unit, is connected with finished product to be measured with proving installation respectively, for controlling the communication between proving installation and finished product to be measured.

As a kind of preferred version of the present utility model, described conveyer comprises transmission belt and a driving and controls a power controller of this transmission belt.

As a kind of preferred version of the present utility model, described conveyer comprises the transmission belt being formed by connecting by some belt sections and drives respectively and control some power controllers of corresponding some belt sections.

As a kind of preferred version of the present utility model, described communication control unit comprises acoustic control module, described acoustic control module comprise be connected with proving installation for play proving installation test instruction the first playback unit and be installed in finished product to be measured for described in receiving record first playback unit play test instruction first recording unit.

As a kind of preferred version of the present utility model, described acoustic control module also comprise be connected with finished product to be measured for play finished product to be measured reply instruction the second playback unit and be installed in proving installation for described in receiving record second playback unit play reply instruction second recording unit.

As a kind of preferred version of the present utility model, described communication control unit comprises light-operated module, and described light-operated module comprises the light sensation unit that is connected with proving installation and has the optical control element of default luminosity and be installed in finished product to be measured the default luminosity for responding to described optical control element.

As a kind of preferred version of the present utility model, described communication control unit comprises magnetic control module, and described magnetic control module comprises the magnetic strength unit that is connected with proving installation and has the magnetic control unit of default magnetic force and be installed in finished product to be measured the default magnetic force for responding to described magnetic control unit.

As a kind of preferred version of the present utility model, described communication control unit comprises figure control module, and described figure control module comprises the first pattern being arranged on proving installation and the first pattern picked-up identification equipment that is connected with finished product to be measured and obtains described the first pattern for taking.

As a kind of preferred version of the present utility model, described figure control module also comprises the second pattern being arranged on finished product to be measured and the second pattern picked-up identification equipment that is connected with proving installation and obtains described the second pattern for taking.

As a kind of preferred version of the present utility model, described the first pattern is or/and described the second pattern is pattern in 2 D code.

As a kind of preferred version of the present utility model, described the first pattern is or/and described the second pattern is numeral, letter or figure.

As a kind of preferred version of the present utility model, described localization tool comprises the first positioning element and second positioning element of the both sides that lay respectively at transmission belt, described the first positioning element and described the second positioning element have respectively scalable for clamping the chuck of finished product to be measured, in described the first positioning element and described the second positioning element, are respectively arranged with for driving the flexible cylinder of corresponding chuck.

As mentioned above, ATE (automatic test equipment) of the present utility model, has following beneficial effect:

1, the conveyer in the utility model ATE (automatic test equipment) is by default displacement and residence time operation, product to be measured need to not moved around between each proving installation, by the proving installation place that transports belt and successively product to be measured is transported to appointment, improve the automaticity of test, saved the test duration.

2, the initial end that the utility model ATE (automatic test equipment) is transported at conveyer is provided with positioning fixture, and the position that can guarantee at every turn to rest on below proving installation is all identical.

3, ATE (automatic test equipment) of the present utility model does not re-use the data lines such as USB and sets up the communication connection between proving installation and product to be measured, but adopt the one or more combination in acoustic control module, light-operated module, magnetic control module and figure control module to set up the communication connection between proving installation and product to be measured, in simplifying test macro, also can save the time of setting up communication.

4, ATE (automatic test equipment) of the present utility model also adopts Quick Response Code as the transmission medium between proving installation and product to be measured, can transmit relatively large data.

Accompanying drawing explanation

Fig. 1 is shown as the schematic diagram of ATE (automatic test equipment) of the present utility model.

Fig. 2 is shown as the connection diagram of belt and power controller in ATE (automatic test equipment) of the present utility model.

Fig. 3 is shown as belt and another connection diagram of power controller in ATE (automatic test equipment) of the present utility model.

Fig. 4 is shown as the structural representation of localization tool in ATE (automatic test equipment) of the present utility model.

Fig. 5 is shown as test data transmission schematic diagram in ATE (automatic test equipment) of the present utility model.

Fig. 6 is shown as the composition schematic diagram of acoustic control module in ATE (automatic test equipment) of the present utility model.

Fig. 7 is shown as another composition schematic diagram of acoustic control module in ATE (automatic test equipment) of the present utility model.

Fig. 8 is shown as the composition schematic diagram of optical module in ATE (automatic test equipment) of the present utility model.

Fig. 9 is shown as the composition schematic diagram of magnetic control module in ATE (automatic test equipment) of the present utility model.

Figure 10 is shown as the composition schematic diagram of figure control module (pattern is take Quick Response Code as example) in ATE (automatic test equipment) of the present utility model.

Figure 11 is shown as the another kind composition schematic diagram of figure control module (pattern is take Quick Response Code as example) in ATE (automatic test equipment) of the present utility model.

Element numbers explanation

1 ATE (automatic test equipment)

11 transmission belts

12 localization tools

121 first positioning elements

121a the first chuck

122 second positioning elements

122a the second chuck

13 proving installations

14 sensors

15 acoustic control modules

151 first playback unit

152 first recording unit

153 second playback unit

154 second recording unit

16 power controllers

17 figure control modules

171 first pattern in 2 D code

172 first pattern picked-up identification equipments

173 second pattern in 2 D code

174 second pattern picked-up identification equipments

18 light-operated modules

181 optical control elements

182 light sensation unit

19 magnetic control modules

191 magnetic control unit

192 magnetic strength unit

2 finished products to be measured

Embodiment

By particular specific embodiment, embodiment of the present utility model is described below, person skilled in the art scholar can understand other advantages of the present utility model and effect easily by the disclosed content of this instructions.

This embodiment relates to Fig. 1 and Figure 11.Notice, appended graphic the illustrated structure of this instructions, ratio, size etc., all contents in order to coordinate instructions to disclose only, understand and read for person skilled in the art scholar, not in order to limit the enforceable qualifications of the utility model, therefore the not technical essential meaning of tool, the adjustment of the modification of any structure, the change of proportionate relationship or size, do not affecting under effect that the utility model can produce and the object that can reach, all should still drop on the technology contents that the utility model discloses and obtain in the scope that can contain.Simultaneously, in this instructions, quote as " on ", the term of D score, " left side ", " right side ", " centre " and " " etc., also only for ease of understanding of narrating, but not in order to limit the enforceable scope of the utility model, the change of its relativeness or adjustment, changing under technology contents, when being also considered as the enforceable category of the utility model without essence.

The purpose of this utility model is to provide a kind of ATE (automatic test equipment), loaded down with trivial details for solving test system and test of the prior art, the problem that the test duration is long.By describing principle and the embodiment of a kind of ATE (automatic test equipment) of the present utility model in detail, make those skilled in the art not need creative work can understand a kind of ATE (automatic test equipment) of the present utility model below.

Refer to Fig. 1, be shown as the rough schematic of ATE (automatic test equipment) of the present utility model, the utility model provides a kind of ATE (automatic test equipment), be applied in the finished product test of electronic product, as shown in Figure 1, described ATE (automatic test equipment) 1 at least comprises conveyer (not marking in figure), localization tool 12, proving installation 13, sensor 14 and communicator.

Described conveyer comprises for carrying finished product 2 to be measured and transporting the transmission belt 11 of finished product 2 to be measured and drive transmission belt 11 to move and control belt by the power controller 16 of default displacement and residence time operation.Visible, the streamline being made up of conveyer is also different from streamline of the prior art, the streamline in the present embodiment be a kind of can pre-set displacement and the special flow waterline of traveling time.By setting displacement, finished product 2 to be measured can be placed in to proving installation 13 places of appointment, make pipeline stalling by default traveling time, test finished product 2 to be measured for proving installation 13 enough time is provided.

Particularly, in described power controller 16, be provided with the traveling time of Timer Controlling streamline.

Conveyer in the present embodiment is by default displacement and residence time operation, product to be measured need to not moved around between each proving installation 13, by proving installation 13 places that transport belt and successively product to be measured is transported to appointment, simplify test process, save the test duration.

It should be noted that, especially, in the present embodiment, the transmission belt 11 of described conveyer and power controller 16 can adopt different two groups to be connected and type of drive.

As shown in Figure 2, wherein a kind of mode is: described conveyer comprises a transmission belt 11 and drives and control a power controller 16 of this transmission belt 11.

As shown in Figure 3, another mode is: described conveyer comprises the transmission belt 11 being formed by connecting by some belt sections and drives respectively and control some power controllers 16 of corresponding some belt sections.

Described localization tool 12 is arranged on the initial end that conveyer transports, and is located at the predeterminated position of transmission belt 11 for locating finished product to be measured 2 on transmission belt 11.The present embodiment is provided with positioning fixture by the initial end of transporting at conveyer, and it is all identical can guaranteeing to rest on proving installation 13 position below at every turn.

Particularly, in the present embodiment, as shown in Figure 4, described positioning fixture comprises the first positioning element 121 and second positioning element 122 of the both sides that lay respectively at transmission belt 11, described the first positioning element 121 and described the second positioning element 122 have respectively scalable for clamping the chuck of finished product 2 to be measured, the first positioning element 121 has the first chuck 121a, the second positioning element 122 has the second chuck 122a, the shape of the first chuck 121a and the second chuck 122a as shown in Figure 4, but the concrete shape of the first chuck 121a and the second chuck 122a also can freely be adjusted according to the outer shape of product to be measured, make the first chuck 121a and the second chuck 122a can locate described product to be measured.

In the present embodiment, in described the first positioning element 121 and described the second positioning element 122, be respectively arranged with for driving the flexible cylinder of corresponding chuck (because cylinder lays respectively at the inside of the first positioning element 121 and the second positioning element 122, so not shown in Fig. 4).

Described proving installation 13 is arranged on transmission belt 11 tops, and the finished product to be measured 2 stopping on transmission belt 11 is thereunder tested.The concrete structure of proving installation 13 and function are set according to the demand of the finished product to be measured 2 that will test.On transmission belt 11, can set gradually the proving installation 13 of multiple test difference in functionality projects, as shown in Figure 1 and Figure 5, in Fig. 5, #1～#9 represents respectively proving installation 13, for example #1 proving installation 13 is Presentation Functions of test finished product 2 to be measured, #2 proving installation 13 is keypress functions of test finished product 2 to be measured, and other proving installation 13 is tested other function of finished product 2 to be measured, and finished product 2 to be measured is after positioning fixture is transporting on belt location, pass through successively #1～#9 proving installation 13, complete test.#1～#9 proving installation 13 communicates with finished product 2 to be measured, after acquisition test data, can store specified database into.

As shown in Figure 1, it is other that described sensor 14 is arranged on described proving installation 13, for detection of described finished product 2 to be measured whether rest on the below of described proving installation 13 and detect described finished product to be measured 2 rest on described proving installation 13 below time transmit detection signal to described proving installation 13 so that described proving installation 13 is carried out the test to finished product 2 to be measured in the time receiving detection signal.Each proving installation 13 side disposes a sensor 14, in the time that finished product 2 to be measured reaches proving installation 13 place, can learn by in-plant sensor 14.

Described communicator is connected with finished product to be measured with proving installation respectively, for controlling the communication between proving installation and finished product to be measured.Particularly, in the present embodiment, as shown in Fig. 6 to Figure 11, described communicator comprises the one or more combination in acoustic control module 15, light-operated module 18, magnetic control module 19 and figure control module 17.

As shown in Figure 6, described acoustic control module 15 at least comprise be connected with proving installation 13 for play proving installation 13 test instruction the first playback unit 151 and be installed in the first recording unit 152 of finished product 2 to be measured for the test instruction that described in receiving record, the first playback unit 151 is play.

This situation is the one-way communication of proving installation 13 and finished product 2 to be measured, and proving installation 13 is sounded, and finished product 2 to be measured receives sound.Described proving installation 13 is preset and is stored tone testing instruction, in the time that finished product 2 to be measured runs to proving installation 13 place, proving installation 13 is play this tone testing instruction by the first playback unit 151, in finished product 2 to be measured first recording unit 152 just can receive the tone testing instruction of broadcasting, is provided with the control module that can identify tone testing instruction and carry out corresponding tone testing instruction in test product.

In addition, in the present embodiment, proving installation 13 and finished product 2 to be measured also can two-way communications, as shown in Figure 7, described acoustic control module 15 comprise be connected with proving installation 13 for play proving installation 13 test instruction the first playback unit 151 and be installed in outside the first recording unit 152 of finished product 2 to be measured for the test instruction that described in receiving record, the first playback unit 151 is play, described acoustic control module 15 also comprise be connected with finished product 2 to be measured for play finished product 2 to be measured reply instruction the second playback unit 153 and be installed in the second recording unit 154 of proving installation 13 for the reply instruction that described in receiving record, the second playback unit 153 is play.

In the present embodiment, described the first playback unit 151 and described the second playback unit 153 can be external loudspeaker, also can described the first playback unit 151 be external loudspeaker, the second playback unit 153 be to be built in the voice playing device such as the player in finished product 2 to be measured.

Therefore, ATE (automatic test equipment) 1 of the present utility model does not re-use the data lines such as USB and sets up the communication connection between proving installation 13 and product to be measured, but the communication connection that adopts acoustic control module 15 to set up between proving installation 13 and product to be measured, in simplifying test macro, also can save the time of setting up communication.

As shown in Figure 8, described light-operated module 18 comprises the light sensation unit 182 that is connected with proving installation and has the optical control element 181 of default luminosity and be installed in finished product to be measured the default luminosity for responding to described optical control element 181.This situation is the one-way communication of proving installation 13 and finished product 2 to be measured, and proving installation 13 sends light, and finished product 2 to be measured receives light, and described finished product 2 to be measured is according to the different luminosity identification proving installations 13 that receive.

Can adopt separately light-operated module 18 to control communicating by letter of proving installation and finished product 2 to be measured, also can adopt acoustic control module 15 and the combination control proving installation of light-operated module 18 and communicating by letter of finished product 2 to be measured.For example, between #1 proving installation and finished product to be measured 2, adopt acoustic control module 15 to communicate, #2 proving installation and and finished product to be measured 2 between adopt light-operated module 18 to communicate.

Identical with acoustic control module 15, also can carry out two-way communication by light-operated module 18 proving installations 13 with finished product 2 to be measured.Concrete form can, with reference to the communication form of acoustic control module 15, not repeat them here.

As shown in Figure 9, described magnetic control module 19 comprises the magnetic strength unit 192 that is connected with proving installation and has the magnetic control unit 191 of default magnetic force and be installed in finished product 2 to be measured the default magnetic force for responding to described magnetic control unit 191.This situation is the one-way communication of proving installation 13 and finished product 2 to be measured, and proving installation 13 produces magnetic force, and finished product 2 to be measured receives induced magnetism, and described finished product 2 to be measured is according to the magnetic force size identification proving installation 13 receiving.

Can adopt separately magnetic control module 19 to control communicating by letter of proving installation and finished product 2 to be measured, also can adopt with acoustic control module 15 or/and the combination control proving installation of light-operated module 18 and communicating by letter of finished product 2 to be measured.For example, between #1 proving installation and finished product to be measured 2, adopt acoustic control module 15 to communicate, #2 proving installation and and finished product to be measured 2 between adopt light-operated module 18 to communicate, #3 proving installation and and finished product to be measured 2 between adopt magnetic control module 19 to communicate.

Identical with acoustic control module 15, also can carry out two-way communication by magnetic control module 19 proving installations 13 with finished product 2 to be measured.Concrete form can, with reference to the communication form of acoustic control module 15, not repeat them here.

Described figure control module 17 comprises the first pattern being arranged on proving installation and the first pattern picked-up identification equipment that is connected with finished product 2 to be measured and obtains described the first pattern for taking.This situation is the one-way communication of proving installation 13 and finished product 2 to be measured, and proving installation 13 is provided with the first pattern, and finished product 2 to be measured absorbs identification icon, and described finished product 2 to be measured is according to the content recognition proving installation 13 of the first pattern.

Wherein said the first pattern includes but not limited to as numeral, letter or figure, also can for other can distinguishing tests device other arbitrary graphic pattern.

Can adopt separately figure control module 17 to control communicating by letter of proving installation and finished product 2 to be measured, also can adopt with acoustic control module 15 or/and the combination control proving installation of light-operated module 18 and/or magnetic control module 19 and communicating by letter of finished product 2 to be measured.For example, between #1 proving installation and finished product to be measured 2, adopt acoustic control module 15 to communicate, #2 proving installation and and finished product to be measured 2 between adopt light-operated module 18 to communicate, #3 proving installation and and finished product to be measured 2 between employing figure control module 17 communicate.

Identical with acoustic control module 15, control module 17 proving installations 13 by figure and also can carry out two-way communication with finished product 2 to be measured.Particularly, described figure control module 17 is except comprising the first pattern and the first pattern picked-up identification equipment, and described figure control module 17 also comprises the second pattern being arranged on finished product 2 to be measured and the second pattern picked-up identification equipment that is connected with proving installation and obtains described the second pattern for taking.

Wherein said the second pattern includes but not limited to, into numeral, letter or figure, also can distinguish for other other arbitrary graphic pattern of finished product 2 to be measured.

Described acoustic control module 15, magnetic control module 19 and light-operated module 18 can be for the transmission of two-way simple data between proving installation 13 and product to be measured, if desired can be by Quick Response Code as the medium transmitting, so the pattern in the described figure control module 17 in the present embodiment can be Quick Response Code according to demand while transmitting relatively large data.Take pattern as pattern in 2 D code as example describes described figure control module 17.

As shown in figure 10, can adopt Quick Response Code to carry out one-way communication, described the first pattern is or/and described the second pattern is pattern in 2 D code.Particularly, described figure control module 17 has the first pattern in 2 D code 171 and the first pattern picked-up identification equipment 172.

The first pattern in 2 D code 171 that represents this finished product 2 to be measured is arranged on described finished product to be measured 2, for taking the Quick Response Code that obtains in described the first pattern in 2 D code 171 and the first pattern picked-up identification equipment 172 that described Quick Response Code is transferred to described proving installation 13 being connected with proving installation 13.

The fundamental purpose of obtaining the Quick Response Code in finished product 2 to be measured is: for identifying the production sequence number of finished product to be measured, and produce according to this sequence number update to production information system, as the foundation of flow process control.

As shown in figure 11, can adopt Quick Response Code to carry out two-way communication, particularly, described figure control module 17, except having the first pattern in 2 D code 171 and the first pattern picked-up identification equipment 172, also has the second pattern in 2 D code 173 and the second pattern picked-up identification equipment 174.

The first pattern in 2 D code 171 that represents this finished product 2 to be measured is arranged on described finished product to be measured 2, for taking the Quick Response Code that obtains in described the first pattern in 2 D code 171 and the first pattern picked-up identification equipment 172 that described Quick Response Code is transferred to described proving installation 13 being arranged to proving installation 13; Be provided with simultaneously and represent that the second pattern in 2 D code 173 of this proving installation 13 is arranged on described proving installation 13, for taking the Quick Response Code that obtains in described the second pattern in 2 D code 173 and the second pattern picked-up identification equipment 174 that described Quick Response Code is transferred to described finished product to be measured 2 being arranged to described finished product to be measured 2.

The fundamental purpose of obtaining the Quick Response Code in proving installation 13 is: the production sequence number that the Quick Response Code in proving installation 13 comprises finished product 2 to be measured and the test result of each proving installation, finished product to be measured is obtained these test results and will be integrated the test result of original finished product to be measured, show, to facilitate producers to understand the integrated testability result of this finished product to be measured.

Can obtain the sequence number of finished product 2 to be measured by Quick Response Code, unique identification number that namely finished product 2 to be measured has.By the first pattern picked-up identification equipment 172 in proving installation 13, can obtain the sequence number of finished product 2 to be measured, correspondence establishment communication between the two.ATE (automatic test equipment) 1 in the present embodiment, by adopting Quick Response Code as the transmission medium between proving installation 13 and product to be measured, can be transmitted relatively large data.

In sum, ATE (automatic test equipment) of the present utility model, has reached following beneficial effect:

Conveyer in the utility model ATE (automatic test equipment) is by default displacement and residence time operation, product to be measured need to not moved around between each proving installation, by the proving installation place that transports belt and successively product to be measured is transported to appointment, simplify test process, saved the test duration; The initial end that the utility model ATE (automatic test equipment) is transported at conveyer is provided with positioning fixture, and the position that can guarantee at every turn to rest on below proving installation is all identical; ATE (automatic test equipment) of the present utility model does not re-use the data lines such as USB and sets up the communication connection between proving installation and product to be measured, but adopt the one or more combination in acoustic control module, light-operated module, magnetic control module and figure control module to set up the communication connection between proving installation and product to be measured, in simplifying test macro, also can save the time of setting up communication; ATE (automatic test equipment) of the present utility model also adopts Quick Response Code as the transmission medium between proving installation and product to be measured, can transmit relatively large data.So the utility model has effectively overcome various shortcoming of the prior art and tool high industrial utilization.

Above-described embodiment is illustrative principle of the present utility model and effect thereof only, but not for limiting the utility model.Any person skilled in the art scholar all can, under spirit of the present utility model and category, modify or change above-described embodiment.Therefore, have in technical field under such as and conventionally know that the knowledgeable modifies or changes not departing from all equivalences that complete under spirit that the utility model discloses and technological thought, must be contained by claim of the present utility model.

Claims (12)

1. an ATE (automatic test equipment), is applied in the finished product test of electronic product, it is characterized in that, described ATE (automatic test equipment) comprises:

Conveyer, comprises for carrying finished product to be measured and transporting the transmission belt of finished product to be measured and drive transmission belt to move and control belt by the power controller of default displacement and residence time operation;

Localization tool, is arranged on the initial end that conveyer transports, and is located at the predeterminated position of transmission belt for locating finished product to be measured on transmission belt;

Proving installation, is arranged on transmission belt top, and the finished product to be measured stopping on transmission belt is thereunder tested;

Sensor, be arranged on by described proving installation, for detection of described finished product to be measured whether rest on the below of described proving installation and detect described finished product to be measured rest on described proving installation below time to described proving installation transmission detection signal, so that described proving installation is carried out the test to finished product to be measured in the time receiving detection signal;

Communication control unit, is connected with finished product to be measured with proving installation respectively, for controlling the communication between proving installation and finished product to be measured.

2. ATE (automatic test equipment) according to claim 1, is characterized in that, described conveyer comprises transmission belt and a driving and controls a power controller of this transmission belt.

3. ATE (automatic test equipment) according to claim 1, is characterized in that, described conveyer comprises the transmission belt being formed by connecting by some belt sections and drives respectively and control some power controllers of corresponding some belt sections.

4. ATE (automatic test equipment) according to claim 1, it is characterized in that, described communication control unit comprises acoustic control module, described acoustic control module comprise be connected with proving installation for play proving installation test instruction the first playback unit and be installed in finished product to be measured for described in receiving record first playback unit play test instruction first recording unit.

5. ATE (automatic test equipment) according to claim 4, it is characterized in that, described acoustic control module also comprise be connected with finished product to be measured for play finished product to be measured reply instruction the second playback unit and be installed in proving installation for described in receiving record second playback unit play reply instruction second recording unit.

6. according to the ATE (automatic test equipment) described in claim 1 or 4, it is characterized in that, described communication control unit comprises light-operated module, and described light-operated module comprises the light sensation unit that is connected with proving installation and has the optical control element of default luminosity and be installed in finished product to be measured the default luminosity for responding to described optical control element.

7. according to the ATE (automatic test equipment) described in claim 1 or 4, it is characterized in that, described communication control unit comprises magnetic control module, and described magnetic control module comprises the magnetic strength unit that is connected with proving installation and has the magnetic control unit of default magnetic force and be installed in finished product to be measured the default magnetic force for responding to described magnetic control unit.

8. according to the ATE (automatic test equipment) described in claim 1 or 4, it is characterized in that, described communication control unit comprises figure control module, and described figure control module comprises the first pattern being arranged on proving installation and the first pattern picked-up identification equipment that is connected with finished product to be measured and obtains described the first pattern for taking.

9. ATE (automatic test equipment) according to claim 8, is characterized in that, described figure control module also comprises the second pattern being arranged on finished product to be measured and the second pattern picked-up identification equipment that is connected with proving installation and obtains described the second pattern for taking.

10. ATE (automatic test equipment) according to claim 9, is characterized in that, described the first pattern is or/and described the second pattern is pattern in 2 D code.

11. ATE (automatic test equipment) according to claim 9, is characterized in that, described the first pattern is or/and described the second pattern is numeral, letter or figure.

12. ATE (automatic test equipment) according to claim 1, it is characterized in that, described localization tool comprises the first positioning element and second positioning element of the both sides that lay respectively at transmission belt, described the first positioning element and described the second positioning element have respectively scalable for clamping the chuck of finished product to be measured, in described the first positioning element and described the second positioning element, are respectively arranged with for driving the flexible cylinder of corresponding chuck.

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